ATG5 Antibody - BSA Free (NB110-53818): Novus Biologicals

<!DOCTYPE html> <html> <head> <meta charset="UTF-8"><script type="text/javascript">(window.NREUM||(NREUM={})).init={privacy:{cookies_enabled:true},ajax:{deny_list:[]},session_replay:{sampling_rate:10.0,mask_text_selector:"",block_selector:"",mask_input_options:{date:true,text_area:true,week:true,select:true,color:true,range:true,textarea:true,url:true,number:true,search:true,month:true,datetime_local:true,tel:true,text:true,time:true,email:true},enabled:true,error_sampling_rate:100.0}};(window.NREUM||(NREUM={})).loader_config={xpid:"UA8FUVBADwsIV1VaAgQD",licenseKey:"76fb58fb05",applicationID:"788348554"};;/*! For license information please see nr-loader-full-1.274.0.min.js.LICENSE.txt */ (()=>{var e,t,r={8122:(e,t,r)=>{"use strict";r.d(t,{a:()=>i});var n=r(944);function i(e,t){try{if(!e||"object"!=typeof e)return(0,n.R)(3);if(!t||"object"!=typeof t)return(0,n.R)(4);const r=Object.create(Object.getPrototypeOf(t),Object.getOwnPropertyDescriptors(t)),o=0===Object.keys(r).length?e:r;for(let a in o)if(void 0!==e[a])try{if(null===e[a]){r[a]=null;continue}Array.isArray(e[a])&&Array.isArray(t[a])?r[a]=Array.from(new Set([...e[a],...t[a]])):"object"==typeof e[a]&&"object"==typeof t[a]?r[a]=i(e[a],t[a]):r[a]=e[a]}catch(e){(0,n.R)(1,e)}return r}catch(e){(0,n.R)(2,e)}}},2555:(e,t,r)=>{"use strict";r.d(t,{Vp:()=>c,fn:()=>s,x1:()=>d});var n=r(384),i=r(8122);const o={beacon:n.NT.beacon,errorBeacon:n.NT.errorBeacon,licenseKey:void 0,applicationID:void 0,sa:void 0,queueTime:void 0,applicationTime:void 0,ttGuid:void 0,user:void 0,account:void 0,product:void 0,extra:void 0,jsAttributes:{},userAttributes:void 0,atts:void 0,transactionName:void 0,tNamePlain:void 0},a={};function s(e){try{const t=c(e);return!!t.licenseKey&&!!t.errorBeacon&&!!t.applicationID}catch(e){return!1}}function c(e){if(!e)throw new Error("All info objects require an agent identifier!");if(!a[e])throw new Error("Info for ".concat(e," was never set"));return a[e]}function d(e,t){if(!e)throw new Error("All info objects require an agent identifier!");a[e]=(0,i.a)(t,o);const r=(0,n.nY)(e);r&&(r.info=a[e])}},9417:(e,t,r)=>{"use strict";r.d(t,{D0:()=>h,gD:()=>p,xN:()=>g});var n=r(993);const i=e=>{if(!e||"string"!=typeof e)return!1;try{document.createDocumentFragment().querySelector(e)}catch{return!1}return!0};var o=r(2614),a=r(944),s=r(384),c=r(8122);const d="[data-nr-mask]",u=()=>{const e={mask_selector:"*",block_selector:"[data-nr-block]",mask_input_options:{color:!1,date:!1,"datetime-local":!1,email:!1,month:!1,number:!1,range:!1,search:!1,tel:!1,text:!1,time:!1,url:!1,week:!1,textarea:!1,select:!1,password:!0}};return{ajax:{deny_list:void 0,block_internal:!0,enabled:!0,harvestTimeSeconds:10,autoStart:!0},distributed_tracing:{enabled:void 0,exclude_newrelic_header:void 0,cors_use_newrelic_header:void 0,cors_use_tracecontext_headers:void 0,allowed_origins:void 0},feature_flags:[],generic_events:{enabled:!0,harvestTimeSeconds:30,autoStart:!0},harvest:{tooManyRequestsDelay:60},jserrors:{enabled:!0,harvestTimeSeconds:10,autoStart:!0},logging:{enabled:!0,harvestTimeSeconds:10,autoStart:!0,level:n.p_.INFO},metrics:{enabled:!0,autoStart:!0},obfuscate:void 0,page_action:{enabled:!0},page_view_event:{enabled:!0,autoStart:!0},page_view_timing:{enabled:!0,harvestTimeSeconds:30,autoStart:!0},performance:{capture_marks:!1,capture_measures:!1},privacy:{cookies_enabled:!0},proxy:{assets:void 0,beacon:void 0},session:{expiresMs:o.wk,inactiveMs:o.BB},session_replay:{autoStart:!0,enabled:!1,harvestTimeSeconds:60,preload:!1,sampling_rate:10,error_sampling_rate:100,collect_fonts:!1,inline_images:!1,fix_stylesheets:!0,mask_all_inputs:!0,get mask_text_selector(){return e.mask_selector},set mask_text_selector(t){i(t)?e.mask_selector="".concat(t,",").concat(d):""===t||null===t?e.mask_selector=d:(0,a.R)(5,t)},get block_class(){return"nr-block"},get ignore_class(){return"nr-ignore"},get mask_text_class(){return"nr-mask"},get block_selector(){return e.block_selector},set block_selector(t){i(t)?e.block_selector+=",".concat(t):""!==t&&(0,a.R)(6,t)},get mask_input_options(){return e.mask_input_options},set mask_input_options(t){t&&"object"==typeof t?e.mask_input_options={...t,password:!0}:(0,a.R)(7,t)}},session_trace:{enabled:!0,harvestTimeSeconds:10,autoStart:!0},soft_navigations:{enabled:!0,harvestTimeSeconds:10,autoStart:!0},spa:{enabled:!0,harvestTimeSeconds:10,autoStart:!0},ssl:void 0,user_actions:{enabled:!0}}},l={},f="All configuration objects require an agent identifier!";function h(e){if(!e)throw new Error(f);if(!l[e])throw new Error("Configuration for ".concat(e," was never set"));return l[e]}function g(e,t){if(!e)throw new Error(f);l[e]=(0,c.a)(t,u());const r=(0,s.nY)(e);r&&(r.init=l[e])}function p(e,t){if(!e)throw new Error(f);var r=h(e);if(r){for(var n=t.split("."),i=0;i<n.length-1;i++)if("object"!=typeof(r=r[n[i]]))return;r=r[n[n.length-1]]}return r}},5603:(e,t,r)=>{"use strict";r.d(t,{a:()=>c,o:()=>s});var n=r(384),i=r(8122);const o={accountID:void 0,trustKey:void 0,agentID:void 0,licenseKey:void 0,applicationID:void 0,xpid:void 0},a={};function s(e){if(!e)throw new Error("All loader-config objects require an agent identifier!");if(!a[e])throw new Error("LoaderConfig for ".concat(e," was never set"));return a[e]}function c(e,t){if(!e)throw new Error("All loader-config objects require an agent identifier!");a[e]=(0,i.a)(t,o);const r=(0,n.nY)(e);r&&(r.loader_config=a[e])}},3371:(e,t,r)=>{"use strict";r.d(t,{V:()=>f,f:()=>l});var n=r(8122),i=r(384),o=r(6154),a=r(9324);let s=0;const c={buildEnv:a.F3,distMethod:a.Xs,version:a.xv,originTime:o.WN},d={customTransaction:void 0,disabled:!1,isolatedBacklog:!1,loaderType:void 0,maxBytes:3e4,onerror:void 0,ptid:void 0,releaseIds:{},appMetadata:{},session:void 0,denyList:void 0,timeKeeper:void 0,obfuscator:void 0},u={};function l(e){if(!e)throw new Error("All runtime objects require an agent identifier!");if(!u[e])throw new Error("Runtime for ".concat(e," was never set"));return u[e]}function f(e,t){if(!e)throw new Error("All runtime objects require an agent identifier!");u[e]={...(0,n.a)(t,d),...c},Object.hasOwnProperty.call(u[e],"harvestCount")||Object.defineProperty(u[e],"harvestCount",{get:()=>++s});const r=(0,i.nY)(e);r&&(r.runtime=u[e])}},9324:(e,t,r)=>{"use strict";r.d(t,{F3:()=>i,Xs:()=>o,Yq:()=>a,xv:()=>n});const n="1.274.0",i="PROD",o="CDN",a="^2.0.0-alpha.17"},6154:(e,t,r)=>{"use strict";r.d(t,{OF:()=>d,RI:()=>i,WN:()=>f,bv:()=>o,gm:()=>a,lR:()=>l,m:()=>c,mw:()=>s,sb:()=>u});var n=r(1863);const i="undefined"!=typeof window&&!!window.document,o="undefined"!=typeof WorkerGlobalScope&&("undefined"!=typeof self&&self instanceof WorkerGlobalScope&&self.navigator instanceof WorkerNavigator||"undefined"!=typeof globalThis&&globalThis instanceof WorkerGlobalScope&&globalThis.navigator instanceof WorkerNavigator),a=i?window:"undefined"!=typeof WorkerGlobalScope&&("undefined"!=typeof self&&self instanceof WorkerGlobalScope&&self||"undefined"!=typeof globalThis&&globalThis instanceof WorkerGlobalScope&&globalThis),s=Boolean("hidden"===a?.document?.visibilityState),c=""+a?.location,d=/iPad|iPhone|iPod/.test(a.navigator?.userAgent),u=d&&"undefined"==typeof SharedWorker,l=(()=>{const e=a.navigator?.userAgent?.match(/Firefox[/\s](\d+\.\d+)/);return Array.isArray(e)&&e.length>=2?+e[1]:0})(),f=Date.now()-(0,n.t)()},7295:(e,t,r)=>{"use strict";r.d(t,{Xv:()=>a,gX:()=>i,iW:()=>o});var n=[];function i(e){if(!e||o(e))return!1;if(0===n.length)return!0;for(var t=0;t<n.length;t++){var r=n[t];if("*"===r.hostname)return!1;if(s(r.hostname,e.hostname)&&c(r.pathname,e.pathname))return!1}return!0}function o(e){return void 0===e.hostname}function a(e){if(n=[],e&&e.length)for(var t=0;t<e.length;t++){let r=e[t];if(!r)continue;0===r.indexOf("http://")?r=r.substring(7):0===r.indexOf("https://")&&(r=r.substring(8));const i=r.indexOf("/");let o,a;i>0?(o=r.substring(0,i),a=r.substring(i)):(o=r,a="");let[s]=o.split(":");n.push({hostname:s,pathname:a})}}function s(e,t){return!(e.length>t.length)&&t.indexOf(e)===t.length-e.length}function c(e,t){return 0===e.indexOf("/")&&(e=e.substring(1)),0===t.indexOf("/")&&(t=t.substring(1)),""===e||e===t}},1687:(e,t,r)=>{"use strict";r.d(t,{Ak:()=>c,Ze:()=>l,x3:()=>d});var n=r(7836),i=r(3606),o=r(860),a=r(2646);const s={};function c(e,t){const r={staged:!1,priority:o.P3[t]||0};u(e),s[e].get(t)||s[e].set(t,r)}function d(e,t){e&&s[e]&&(s[e].get(t)&&s[e].delete(t),h(e,t,!1),s[e].size&&f(e))}function u(e){if(!e)throw new Error("agentIdentifier required");s[e]||(s[e]=new Map)}function l(e="",t="feature",r=!1){if(u(e),!e||!s[e].get(t)||r)return h(e,t);s[e].get(t).staged=!0,f(e)}function f(e){const t=Array.from(s[e]);t.every((([e,t])=>t.staged))&&(t.sort(((e,t)=>e[1].priority-t[1].priority)),t.forEach((([t])=>{s[e].delete(t),h(e,t)})))}function h(e,t,r=!0){const o=e?n.ee.get(e):n.ee,s=i.i.handlers;if(!o.aborted&&o.backlog&&s){if(r){const e=o.backlog[t],r=s[t];if(r){for(let t=0;e&&t<e.length;++t)g(e[t],r);Object.entries(r).forEach((([e,t])=>{Object.values(t||{}).forEach((t=>{t[0]?.on&&t[0]?.context()instanceof a.y&&t[0].on(e,t[1])}))}))}}o.isolatedBacklog||delete s[t],o.backlog[t]=null,o.emit("drain-"+t,[])}}function g(e,t){var r=e[1];Object.values(t[r]||{}).forEach((t=>{var r=e[0];if(t[0]===r){var n=t[1],i=e[3],o=e[2];n.apply(i,o)}}))}},7836:(e,t,r)=>{"use strict";r.d(t,{P:()=>c,ee:()=>d});var n=r(384),i=r(8990),o=r(3371),a=r(2646),s=r(5607);const c="nr@context:".concat(s.W),d=function e(t,r){var n={},s={},u={},l=!1;try{l=16===r.length&&(0,o.f)(r).isolatedBacklog}catch(e){}var f={on:g,addEventListener:g,removeEventListener:function(e,t){var r=n[e];if(!r)return;for(var i=0;i<r.length;i++)r[i]===t&&r.splice(i,1)},emit:function(e,r,n,i,o){!1!==o&&(o=!0);if(d.aborted&&!i)return;t&&o&&t.emit(e,r,n);for(var a=h(n),c=p(e),u=c.length,l=0;l<u;l++)c[l].apply(a,r);var g=v()[s[e]];g&&g.push([f,e,r,a]);return a},get:m,listeners:p,context:h,buffer:function(e,t){const r=v();if(t=t||"feature",f.aborted)return;Object.entries(e||{}).forEach((([e,n])=>{s[n]=t,t in r||(r[t]=[])}))},abort:function(){f._aborted=!0,Object.keys(f.backlog).forEach((e=>{delete f.backlog[e]}))},isBuffering:function(e){return!!v()[s[e]]},debugId:r,backlog:l?{}:t&&"object"==typeof t.backlog?t.backlog:{},isolatedBacklog:l};return Object.defineProperty(f,"aborted",{get:()=>{let e=f._aborted||!1;return e||(t&&(e=t.aborted),e)}}),f;function h(e){return e&&e instanceof a.y?e:e?(0,i.I)(e,c,(()=>new a.y(c))):new a.y(c)}function g(e,t){n[e]=p(e).concat(t)}function p(e){return n[e]||[]}function m(t){return u[t]=u[t]||e(f,t)}function v(){return f.backlog}}(void 0,"globalEE"),u=(0,n.Zm)();u.ee||(u.ee=d)},2646:(e,t,r)=>{"use strict";r.d(t,{y:()=>n});class n{constructor(e){this.contextId=e}}},9908:(e,t,r)=>{"use strict";r.d(t,{d:()=>n,p:()=>i});var n=r(7836).ee.get("handle");function i(e,t,r,i,o){o?(o.buffer([e],i),o.emit(e,t,r)):(n.buffer([e],i),n.emit(e,t,r))}},3606:(e,t,r)=>{"use strict";r.d(t,{i:()=>o});var n=r(9908);o.on=a;var i=o.handlers={};function o(e,t,r,o){a(o||n.d,i,e,t,r)}function a(e,t,r,i,o){o||(o="feature"),e||(e=n.d);var a=t[o]=t[o]||{};(a[r]=a[r]||[]).push([e,i])}},3878:(e,t,r)=>{"use strict";function n(e,t){return{capture:e,passive:!1,signal:t}}function i(e,t,r=!1,i){window.addEventListener(e,t,n(r,i))}function o(e,t,r=!1,i){document.addEventListener(e,t,n(r,i))}r.d(t,{DD:()=>o,jT:()=>n,sp:()=>i})},5607:(e,t,r)=>{"use strict";r.d(t,{W:()=>n});const n=(0,r(9566).bz)()},9566:(e,t,r)=>{"use strict";r.d(t,{LA:()=>s,ZF:()=>c,bz:()=>a,el:()=>d});var n=r(6154);const i="xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx";function o(e,t){return e?15&e[t]:16*Math.random()|0}function a(){const e=n.gm?.crypto||n.gm?.msCrypto;let t,r=0;return e&&e.getRandomValues&&(t=e.getRandomValues(new Uint8Array(30))),i.split("").map((e=>"x"===e?o(t,r++).toString(16):"y"===e?(3&o()|8).toString(16):e)).join("")}function s(e){const t=n.gm?.crypto||n.gm?.msCrypto;let r,i=0;t&&t.getRandomValues&&(r=t.getRandomValues(new Uint8Array(e)));const a=[];for(var s=0;s<e;s++)a.push(o(r,i++).toString(16));return a.join("")}function c(){return s(16)}function d(){return s(32)}},2614:(e,t,r)=>{"use strict";r.d(t,{BB:()=>a,H3:()=>n,g:()=>d,iL:()=>c,tS:()=>s,uh:()=>i,wk:()=>o});const n="NRBA",i="SESSION",o=144e5,a=18e5,s={STARTED:"session-started",PAUSE:"session-pause",RESET:"session-reset",RESUME:"session-resume",UPDATE:"session-update"},c={SAME_TAB:"same-tab",CROSS_TAB:"cross-tab"},d={OFF:0,FULL:1,ERROR:2}},1863:(e,t,r)=>{"use strict";function n(){return Math.floor(performance.now())}r.d(t,{t:()=>n})},7485:(e,t,r)=>{"use strict";r.d(t,{D:()=>i});var n=r(6154);function i(e){if(0===(e||"").indexOf("data:"))return{protocol:"data"};try{const t=new URL(e,location.href),r={port:t.port,hostname:t.hostname,pathname:t.pathname,search:t.search,protocol:t.protocol.slice(0,t.protocol.indexOf(":")),sameOrigin:t.protocol===n.gm?.location?.protocol&&t.host===n.gm?.location?.host};return r.port&&""!==r.port||("http:"===t.protocol&&(r.port="80"),"https:"===t.protocol&&(r.port="443")),r.pathname&&""!==r.pathname?r.pathname.startsWith("/")||(r.pathname="/".concat(r.pathname)):r.pathname="/",r}catch(e){return{}}}},944:(e,t,r)=>{"use strict";function n(e,t){"function"==typeof console.debug&&console.debug("New Relic Warning: https://github.com/newrelic/newrelic-browser-agent/blob/main/docs/warning-codes.md#".concat(e),t)}r.d(t,{R:()=>n})},5284:(e,t,r)=>{"use strict";r.d(t,{t:()=>c,B:()=>s});var n=r(7836),i=r(6154);const o="newrelic";const a=new Set,s={};function c(e,t){const r=n.ee.get(t);s[t]??={},e&&"object"==typeof e&&(a.has(t)||(r.emit("rumresp",[e]),s[t]=e,a.add(t),function(e={}){try{i.gm.dispatchEvent(new CustomEvent(o,{detail:e}))}catch(e){}}({loaded:!0})))}},8990:(e,t,r)=>{"use strict";r.d(t,{I:()=>i});var n=Object.prototype.hasOwnProperty;function i(e,t,r){if(n.call(e,t))return e[t];var i=r();if(Object.defineProperty&&Object.keys)try{return Object.defineProperty(e,t,{value:i,writable:!0,enumerable:!1}),i}catch(e){}return e[t]=i,i}},6389:(e,t,r)=>{"use strict";function n(e,t=500,r={}){const n=r?.leading||!1;let i;return(...r)=>{n&&void 0===i&&(e.apply(this,r),i=setTimeout((()=>{i=clearTimeout(i)}),t)),n||(clearTimeout(i),i=setTimeout((()=>{e.apply(this,r)}),t))}}function i(e){let t=!1;return(...r)=>{t||(t=!0,e.apply(this,r))}}r.d(t,{J:()=>i,s:()=>n})},3304:(e,t,r)=>{"use strict";r.d(t,{A:()=>o});var n=r(7836);const i=()=>{const e=new WeakSet;return(t,r)=>{if("object"==typeof r&&null!==r){if(e.has(r))return;e.add(r)}return r}};function o(e){try{return JSON.stringify(e,i())??""}catch(e){try{n.ee.emit("internal-error",[e])}catch(e){}return""}}},5289:(e,t,r)=>{"use strict";r.d(t,{GG:()=>o,sB:()=>a});var n=r(3878);function i(){return"undefined"==typeof document||"complete"===document.readyState}function o(e,t){if(i())return e();(0,n.sp)("load",e,t)}function a(e){if(i())return e();(0,n.DD)("DOMContentLoaded",e)}},384:(e,t,r)=>{"use strict";r.d(t,{NT:()=>o,US:()=>u,Zm:()=>a,bQ:()=>c,dV:()=>s,nY:()=>d,pV:()=>l});var n=r(6154),i=r(1863);const o={beacon:"bam.nr-data.net",errorBeacon:"bam.nr-data.net"};function a(){return n.gm.NREUM||(n.gm.NREUM={}),void 0===n.gm.newrelic&&(n.gm.newrelic=n.gm.NREUM),n.gm.NREUM}function s(){let e=a();return e.o||(e.o={ST:n.gm.setTimeout,SI:n.gm.setImmediate,CT:n.gm.clearTimeout,XHR:n.gm.XMLHttpRequest,REQ:n.gm.Request,EV:n.gm.Event,PR:n.gm.Promise,MO:n.gm.MutationObserver,FETCH:n.gm.fetch,WS:n.gm.WebSocket}),e}function c(e,t){let r=a();r.initializedAgents??={},t.initializedAt={ms:(0,i.t)(),date:new Date},r.initializedAgents[e]=t}function d(e){let t=a();return t.initializedAgents?.[e]}function u(e,t){a()[e]=t}function l(){return function(){let e=a();const t=e.info||{};e.info={beacon:o.beacon,errorBeacon:o.errorBeacon,...t}}(),function(){let e=a();const t=e.init||{};e.init={...t}}(),s(),function(){let e=a();const t=e.loader_config||{};e.loader_config={...t}}(),a()}},2843:(e,t,r)=>{"use strict";r.d(t,{u:()=>i});var n=r(3878);function i(e,t=!1,r,i){(0,n.DD)("visibilitychange",(function(){if(t)return void("hidden"===document.visibilityState&&e());e(document.visibilityState)}),r,i)}},8139:(e,t,r)=>{"use strict";r.d(t,{u:()=>f});var n=r(7836),i=r(3434),o=r(8990),a=r(6154);const s={},c=a.gm.XMLHttpRequest,d="addEventListener",u="removeEventListener",l="nr@wrapped:".concat(n.P);function f(e){var t=function(e){return(e||n.ee).get("events")}(e);if(s[t.debugId]++)return t;s[t.debugId]=1;var r=(0,i.YM)(t,!0);function f(e){r.inPlace(e,[d,u],"-",g)}function g(e,t){return e[1]}return"getPrototypeOf"in Object&&(a.RI&&h(document,f),h(a.gm,f),h(c.prototype,f)),t.on(d+"-start",(function(e,t){var n=e[1];if(null!==n&&("function"==typeof n||"object"==typeof n)){var i=(0,o.I)(n,l,(function(){var e={object:function(){if("function"!=typeof n.handleEvent)return;return n.handleEvent.apply(n,arguments)},function:n}[typeof n];return e?r(e,"fn-",null,e.name||"anonymous"):n}));this.wrapped=e[1]=i}})),t.on(u+"-start",(function(e){e[1]=this.wrapped||e[1]})),t}function h(e,t,...r){let n=e;for(;"object"==typeof n&&!Object.prototype.hasOwnProperty.call(n,d);)n=Object.getPrototypeOf(n);n&&t(n,...r)}},3434:(e,t,r)=>{"use strict";r.d(t,{YM:()=>c});var n=r(7836),i=r(5607);const o="nr@original:".concat(i.W);var a=Object.prototype.hasOwnProperty,s=!1;function c(e,t){return e||(e=n.ee),r.inPlace=function(e,t,n,i,o){n||(n="");const a="-"===n.charAt(0);for(let s=0;s<t.length;s++){const c=t[s],d=e[c];u(d)||(e[c]=r(d,a?c+n:n,i,c,o))}},r.flag=o,r;function r(t,r,n,s,c){return u(t)?t:(r||(r=""),nrWrapper[o]=t,function(e,t,r){if(Object.defineProperty&&Object.keys)try{return Object.keys(e).forEach((function(r){Object.defineProperty(t,r,{get:function(){return e[r]},set:function(t){return e[r]=t,t}})})),t}catch(e){d([e],r)}for(var n in e)a.call(e,n)&&(t[n]=e[n])}(t,nrWrapper,e),nrWrapper);function nrWrapper(){var o,a,u,l;try{a=this,o=[...arguments],u="function"==typeof n?n(o,a):n||{}}catch(t){d([t,"",[o,a,s],u],e)}i(r+"start",[o,a,s],u,c);try{return l=t.apply(a,o)}catch(e){throw i(r+"err",[o,a,e],u,c),e}finally{i(r+"end",[o,a,l],u,c)}}}function i(r,n,i,o){if(!s||t){var a=s;s=!0;try{e.emit(r,n,i,t,o)}catch(t){d([t,r,n,i],e)}s=a}}}function d(e,t){t||(t=n.ee);try{t.emit("internal-error",e)}catch(e){}}function u(e){return!(e&&"function"==typeof e&&e.apply&&!e[o])}},9300:(e,t,r)=>{"use strict";r.d(t,{T:()=>n});const n=r(860).K7.ajax},3333:(e,t,r)=>{"use strict";r.d(t,{TZ:()=>n,Zp:()=>i,mq:()=>s,nf:()=>a,qN:()=>o});const n=r(860).K7.genericEvents,i=["auxclick","click","copy","keydown","paste","scrollend"],o=["focus","blur"],a=4,s=1e3},6774:(e,t,r)=>{"use strict";r.d(t,{T:()=>n});const n=r(860).K7.jserrors},993:(e,t,r)=>{"use strict";r.d(t,{ET:()=>o,TZ:()=>a,p_:()=>i});var n=r(860);const i={ERROR:"ERROR",WARN:"WARN",INFO:"INFO",DEBUG:"DEBUG",TRACE:"TRACE"},o="log",a=n.K7.logging},3785:(e,t,r)=>{"use strict";r.d(t,{R:()=>c,b:()=>d});var n=r(9908),i=r(1863),o=r(860),a=r(3969),s=r(993);function c(e,t,r={},c=s.p_.INFO){(0,n.p)(a.xV,["API/logging/".concat(c.toLowerCase(),"/called")],void 0,o.K7.metrics,e),(0,n.p)(s.ET,[(0,i.t)(),t,r,c],void 0,o.K7.logging,e)}function d(e){return"string"==typeof e&&Object.values(s.p_).some((t=>t===e.toUpperCase().trim()))}},3969:(e,t,r)=>{"use strict";r.d(t,{TZ:()=>n,XG:()=>s,rs:()=>i,xV:()=>a,z_:()=>o});const n=r(860).K7.metrics,i="sm",o="cm",a="storeSupportabilityMetrics",s="storeEventMetrics"},6630:(e,t,r)=>{"use strict";r.d(t,{T:()=>n});const n=r(860).K7.pageViewEvent},782:(e,t,r)=>{"use strict";r.d(t,{T:()=>n});const n=r(860).K7.pageViewTiming},6344:(e,t,r)=>{"use strict";r.d(t,{BB:()=>u,G4:()=>o,Qb:()=>l,TZ:()=>i,Ug:()=>a,_s:()=>s,bc:()=>d,yP:()=>c});var n=r(2614);const i=r(860).K7.sessionReplay,o={RECORD:"recordReplay",PAUSE:"pauseReplay",REPLAY_RUNNING:"replayRunning",ERROR_DURING_REPLAY:"errorDuringReplay"},a=.12,s={DomContentLoaded:0,Load:1,FullSnapshot:2,IncrementalSnapshot:3,Meta:4,Custom:5},c={[n.g.ERROR]:15e3,[n.g.FULL]:3e5,[n.g.OFF]:0},d={RESET:{message:"Session was reset",sm:"Reset"},IMPORT:{message:"Recorder failed to import",sm:"Import"},TOO_MANY:{message:"429: Too Many Requests",sm:"Too-Many"},TOO_BIG:{message:"Payload was too large",sm:"Too-Big"},CROSS_TAB:{message:"Session Entity was set to OFF on another tab",sm:"Cross-Tab"},ENTITLEMENTS:{message:"Session Replay is not allowed and will not be started",sm:"Entitlement"}},u=5e3,l={API:"api"}},5270:(e,t,r)=>{"use strict";r.d(t,{Aw:()=>c,CT:()=>d,SR:()=>s});var n=r(384),i=r(9417),o=r(7767),a=r(6154);function s(e){return!!(0,n.dV)().o.MO&&(0,o.V)(e)&&!0===(0,i.gD)(e,"session_trace.enabled")}function c(e){return!0===(0,i.gD)(e,"session_replay.preload")&&s(e)}function d(e,t){const r=t.correctAbsoluteTimestamp(e);return{originalTimestamp:e,correctedTimestamp:r,timestampDiff:e-r,originTime:a.WN,correctedOriginTime:t.correctedOriginTime,originTimeDiff:Math.floor(a.WN-t.correctedOriginTime)}}},3738:(e,t,r)=>{"use strict";r.d(t,{He:()=>i,Kp:()=>s,Lc:()=>d,Rz:()=>u,TZ:()=>n,bD:()=>o,d3:()=>a,jx:()=>l,uP:()=>c});const n=r(860).K7.sessionTrace,i="bstResource",o="resource",a="-start",s="-end",c="fn"+a,d="fn"+s,u="pushState",l=1e3},4234:(e,t,r)=>{"use strict";r.d(t,{W:()=>o});var n=r(7836),i=r(1687);class o{constructor(e,t){this.agentIdentifier=e,this.ee=n.ee.get(e),this.featureName=t,this.blocked=!1}deregisterDrain(){(0,i.x3)(this.agentIdentifier,this.featureName)}}},7767:(e,t,r)=>{"use strict";r.d(t,{V:()=>o});var n=r(9417),i=r(6154);const o=e=>i.RI&&!0===(0,n.gD)(e,"privacy.cookies_enabled")},425:(e,t,r)=>{"use strict";r.d(t,{j:()=>P});var n=r(860),i=r(2555),o=r(3371),a=r(9908),s=r(7836),c=r(1687),d=r(5289),u=r(6154),l=r(944),f=r(3969),h=r(384),g=r(6344);const p=["setErrorHandler","finished","addToTrace","addRelease","addPageAction","setCurrentRouteName","setPageViewName","setCustomAttribute","interaction","noticeError","setUserId","setApplicationVersion","start",g.G4.RECORD,g.G4.PAUSE,"log","wrapLogger"],m=["setErrorHandler","finished","addToTrace","addRelease"];var v=r(1863),b=r(2614),y=r(993),R=r(3785),x=r(2646),w=r(3434);function T(e,t,r,n){if("object"!=typeof t||!t||"string"!=typeof r||!r||"function"!=typeof t[r])return(0,l.R)(29);const i=function(e){return(e||s.ee).get("logger")}(e),o=(0,w.YM)(i),a=new x.y(s.P);return a.level=n.level,a.customAttributes=n.customAttributes,o.inPlace(t,[r],"wrap-logger-",a),i}function A(){const e=(0,h.pV)();p.forEach((t=>{e[t]=(...r)=>function(t,...r){let n=[];return Object.values(e.initializedAgents).forEach((e=>{e&&e.api?e.exposed&&e.api[t]&&n.push(e.api[t](...r)):(0,l.R)(38,t)})),n.length>1?n:n[0]}(t,...r)}))}const E={};var S=r(9417),_=r(5603),O=r(5284);const N=e=>{const t=e.startsWith("http");e+="/",r.p=t?e:"https://"+e};let I=!1;function P(e,t={},p,x){let{init:w,info:P,loader_config:j,runtime:C={},exposed:k=!0}=t;C.loaderType=p;const H=(0,h.pV)();P||(w=H.init,P=H.info,j=H.loader_config),(0,S.xN)(e.agentIdentifier,w||{}),(0,_.a)(e.agentIdentifier,j||{}),P.jsAttributes??={},u.bv&&(P.jsAttributes.isWorker=!0),(0,i.x1)(e.agentIdentifier,P);const D=(0,S.D0)(e.agentIdentifier),L=[P.beacon,P.errorBeacon];I||(D.proxy.assets&&(N(D.proxy.assets),L.push(D.proxy.assets)),D.proxy.beacon&&L.push(D.proxy.beacon),A(),(0,h.US)("activatedFeatures",O.B),e.runSoftNavOverSpa&&=!0===D.soft_navigations.enabled&&D.feature_flags.includes("soft_nav")),C.denyList=[...D.ajax.deny_list||[],...D.ajax.block_internal?L:[]],C.ptid=e.agentIdentifier,(0,o.V)(e.agentIdentifier,C),e.ee=s.ee.get(e.agentIdentifier),void 0===e.api&&(e.api=function(e,t,h=!1){t||(0,c.Ak)(e,"api");const p={};var x=s.ee.get(e),w=x.get("tracer");E[e]=b.g.OFF,x.on(g.G4.REPLAY_RUNNING,(t=>{E[e]=t}));var A="api-",S=A+"ixn-";function _(t,r,n,o){const a=(0,i.Vp)(e);return null===r?delete a.jsAttributes[t]:(0,i.x1)(e,{...a,jsAttributes:{...a.jsAttributes,[t]:r}}),I(A,n,!0,o||null===r?"session":void 0)(t,r)}function O(){}p.log=function(e,{customAttributes:t={},level:r=y.p_.INFO}={}){(0,a.p)(f.xV,["API/log/called"],void 0,n.K7.metrics,x),(0,R.R)(x,e,t,r)},p.wrapLogger=(e,t,{customAttributes:r={},level:i=y.p_.INFO}={})=>{(0,a.p)(f.xV,["API/wrapLogger/called"],void 0,n.K7.metrics,x),T(x,e,t,{customAttributes:r,level:i})},m.forEach((e=>{p[e]=I(A,e,!0,"api")})),p.addPageAction=I(A,"addPageAction",!0,n.K7.genericEvents),p.setPageViewName=function(t,r){if("string"==typeof t)return"/"!==t.charAt(0)&&(t="/"+t),(0,o.f)(e).customTransaction=(r||"http://custom.transaction")+t,I(A,"setPageViewName",!0)()},p.setCustomAttribute=function(e,t,r=!1){if("string"==typeof e){if(["string","number","boolean"].includes(typeof t)||null===t)return _(e,t,"setCustomAttribute",r);(0,l.R)(40,typeof t)}else(0,l.R)(39,typeof e)},p.setUserId=function(e){if("string"==typeof e||null===e)return _("enduser.id",e,"setUserId",!0);(0,l.R)(41,typeof e)},p.setApplicationVersion=function(e){if("string"==typeof e||null===e)return _("application.version",e,"setApplicationVersion",!1);(0,l.R)(42,typeof e)},p.start=()=>{try{(0,a.p)(f.xV,["API/start/called"],void 0,n.K7.metrics,x),x.emit("manual-start-all")}catch(e){(0,l.R)(23,e)}},p[g.G4.RECORD]=function(){(0,a.p)(f.xV,["API/recordReplay/called"],void 0,n.K7.metrics,x),(0,a.p)(g.G4.RECORD,[],void 0,n.K7.sessionReplay,x)},p[g.G4.PAUSE]=function(){(0,a.p)(f.xV,["API/pauseReplay/called"],void 0,n.K7.metrics,x),(0,a.p)(g.G4.PAUSE,[],void 0,n.K7.sessionReplay,x)},p.interaction=function(e){return(new O).get("object"==typeof e?e:{})};const N=O.prototype={createTracer:function(e,t){var r={},i=this,o="function"==typeof t;return(0,a.p)(f.xV,["API/createTracer/called"],void 0,n.K7.metrics,x),h||(0,a.p)(S+"tracer",[(0,v.t)(),e,r],i,n.K7.spa,x),function(){if(w.emit((o?"":"no-")+"fn-start",[(0,v.t)(),i,o],r),o)try{return t.apply(this,arguments)}catch(e){const t="string"==typeof e?new Error(e):e;throw w.emit("fn-err",[arguments,this,t],r),t}finally{w.emit("fn-end",[(0,v.t)()],r)}}}};function I(e,t,r,i){return function(){return(0,a.p)(f.xV,["API/"+t+"/called"],void 0,n.K7.metrics,x),i&&(0,a.p)(e+t,[(0,v.t)(),...arguments],r?null:this,i,x),r?void 0:this}}function P(){r.e(891).then(r.bind(r,8778)).then((({setAPI:t})=>{t(e),(0,c.Ze)(e,"api")})).catch((e=>{(0,l.R)(27,e),x.abort()}))}return["actionText","setName","setAttribute","save","ignore","onEnd","getContext","end","get"].forEach((e=>{N[e]=I(S,e,void 0,h?n.K7.softNav:n.K7.spa)})),p.setCurrentRouteName=h?I(S,"routeName",void 0,n.K7.softNav):I(A,"routeName",!0,n.K7.spa),p.noticeError=function(t,r){"string"==typeof t&&(t=new Error(t)),(0,a.p)(f.xV,["API/noticeError/called"],void 0,n.K7.metrics,x),(0,a.p)("err",[t,(0,v.t)(),!1,r,!!E[e]],void 0,n.K7.jserrors,x)},u.RI?(0,d.GG)((()=>P()),!0):P(),p}(e.agentIdentifier,x,e.runSoftNavOverSpa)),void 0===e.exposed&&(e.exposed=k),I=!0}},8374:(e,t,r)=>{r.nc=(()=>{try{return document?.currentScript?.nonce}catch(e){}return""})()},860:(e,t,r)=>{"use strict";r.d(t,{$J:()=>o,K7:()=>n,P3:()=>i});const n={ajax:"ajax",genericEvents:"generic_events",jserrors:"jserrors",logging:"logging",metrics:"metrics",pageAction:"page_action",pageViewEvent:"page_view_event",pageViewTiming:"page_view_timing",sessionReplay:"session_replay",sessionTrace:"session_trace",softNav:"soft_navigations",spa:"spa"},i={[n.pageViewEvent]:1,[n.pageViewTiming]:2,[n.metrics]:3,[n.jserrors]:4,[n.spa]:5,[n.ajax]:6,[n.sessionTrace]:7,[n.softNav]:8,[n.sessionReplay]:9,[n.logging]:10,[n.genericEvents]:11},o={[n.pageViewTiming]:"events",[n.ajax]:"events",[n.spa]:"events",[n.softNav]:"events",[n.metrics]:"jserrors",[n.jserrors]:"jserrors",[n.sessionTrace]:"browser/blobs",[n.sessionReplay]:"browser/blobs",[n.logging]:"browser/logs",[n.genericEvents]:"ins"}}},n={};function i(e){var t=n[e];if(void 0!==t)return t.exports;var o=n[e]={exports:{}};return r[e](o,o.exports,i),o.exports}i.m=r,i.d=(e,t)=>{for(var r in t)i.o(t,r)&&!i.o(e,r)&&Object.defineProperty(e,r,{enumerable:!0,get:t[r]})},i.f={},i.e=e=>Promise.all(Object.keys(i.f).reduce(((t,r)=>(i.f[r](e,t),t)),[])),i.u=e=>({95:"nr-full-compressor",222:"nr-full-recorder",891:"nr-full"}[e]+"-1.274.0.min.js"),i.o=(e,t)=>Object.prototype.hasOwnProperty.call(e,t),e={},t="NRBA-1.274.0.PROD:",i.l=(r,n,o,a)=>{if(e[r])e[r].push(n);else{var s,c;if(void 0!==o)for(var d=document.getElementsByTagName("script"),u=0;u<d.length;u++){var l=d[u];if(l.getAttribute("src")==r||l.getAttribute("data-webpack")==t+o){s=l;break}}if(!s){c=!0;var f={891:"sha512-Sx2xJQrHp2m/Ngn/ZcfBCUwNr2Xy/C5urYtWpfm3bWpil4spXOQGTtNwIfF5HvPGioGASn9QTyE4Z+zC7r7wcg==",222:"sha512-hMte3OWgwwYeisSiD7WCIx/6tT16zLaPjag9uF4tIZp7ybOvrJKbeyzhe4fz1tDbkdcdOMm8dvgPPLBatSAGeA==",95:"sha512-MPaT9dkHv16XzwEUVZPyqpN1do/Er1XFAZoIAPYWylmv+iGIThqN+GwQq27pUyAX7sNXVJQVZezH96p53Ks3Pg=="};(s=document.createElement("script")).charset="utf-8",s.timeout=120,i.nc&&s.setAttribute("nonce",i.nc),s.setAttribute("data-webpack",t+o),s.src=r,0!==s.src.indexOf(window.location.origin+"/")&&(s.crossOrigin="anonymous"),f[a]&&(s.integrity=f[a])}e[r]=[n];var h=(t,n)=>{s.onerror=s.onload=null,clearTimeout(g);var i=e[r];if(delete e[r],s.parentNode&&s.parentNode.removeChild(s),i&&i.forEach((e=>e(n))),t)return t(n)},g=setTimeout(h.bind(null,void 0,{type:"timeout",target:s}),12e4);s.onerror=h.bind(null,s.onerror),s.onload=h.bind(null,s.onload),c&&document.head.appendChild(s)}},i.r=e=>{"undefined"!=typeof Symbol&&Symbol.toStringTag&&Object.defineProperty(e,Symbol.toStringTag,{value:"Module"}),Object.defineProperty(e,"__esModule",{value:!0})},i.p="https://js-agent.newrelic.com/",(()=>{var e={959:0,85:0};i.f.j=(t,r)=>{var n=i.o(e,t)?e[t]:void 0;if(0!==n)if(n)r.push(n[2]);else{var o=new Promise(((r,i)=>n=e[t]=[r,i]));r.push(n[2]=o);var a=i.p+i.u(t),s=new Error;i.l(a,(r=>{if(i.o(e,t)&&(0!==(n=e[t])&&(e[t]=void 0),n)){var o=r&&("load"===r.type?"missing":r.type),a=r&&r.target&&r.target.src;s.message="Loading chunk "+t+" failed.\n("+o+": "+a+")",s.name="ChunkLoadError",s.type=o,s.request=a,n[1](s)}}),"chunk-"+t,t)}};var t=(t,r)=>{var n,o,[a,s,c]=r,d=0;if(a.some((t=>0!==e[t]))){for(n in s)i.o(s,n)&&(i.m[n]=s[n]);if(c)c(i)}for(t&&t(r);d<a.length;d++)o=a[d],i.o(e,o)&&e[o]&&e[o][0](),e[o]=0},r=self["webpackChunk:NRBA-1.274.0.PROD"]=self["webpackChunk:NRBA-1.274.0.PROD"]||[];r.forEach(t.bind(null,0)),r.push=t.bind(null,r.push.bind(r))})(),(()=>{"use strict";i(8374);var e=i(944),t=i(6344),r=i(9566);class n{agentIdentifier;constructor(e=(0,r.LA)(16)){this.agentIdentifier=e}#e(t,...r){if("function"==typeof this.api?.[t])return this.api[t](...r);(0,e.R)(35,t)}addPageAction(e,t){return this.#e("addPageAction",e,t)}setPageViewName(e,t){return this.#e("setPageViewName",e,t)}setCustomAttribute(e,t,r){return this.#e("setCustomAttribute",e,t,r)}noticeError(e,t){return this.#e("noticeError",e,t)}setUserId(e){return this.#e("setUserId",e)}setApplicationVersion(e){return this.#e("setApplicationVersion",e)}setErrorHandler(e){return this.#e("setErrorHandler",e)}addRelease(e,t){return this.#e("addRelease",e,t)}log(e,t){return this.#e("log",e,t)}}class o extends n{#e(t,...r){if("function"==typeof this.api?.[t])return this.api[t](...r);(0,e.R)(35,t)}start(){return this.#e("start")}finished(e){return this.#e("finished",e)}recordReplay(){return this.#e(t.G4.RECORD)}pauseReplay(){return this.#e(t.G4.PAUSE)}addToTrace(e){return this.#e("addToTrace",e)}setCurrentRouteName(e){return this.#e("setCurrentRouteName",e)}interaction(){return this.#e("interaction")}wrapLogger(e,t,r){return this.#e("wrapLogger",e,t,r)}}var a=i(860),s=i(9417);const c=Object.values(a.K7);function d(e){const t={};return c.forEach((r=>{t[r]=function(e,t){return!0===(0,s.gD)(t,"".concat(e,".enabled"))}(r,e)})),t}var u=i(425);var l=i(1687),f=i(4234),h=i(5289),g=i(6154),p=i(5270),m=i(7767),v=i(6389);class b extends f.W{constructor(e,t,r=!0){super(e.agentIdentifier,t),this.auto=r,this.abortHandler=void 0,this.featAggregate=void 0,this.onAggregateImported=void 0,!1===e.init[this.featureName].autoStart&&(this.auto=!1),this.auto?(0,l.Ak)(e.agentIdentifier,t):this.ee.on("manual-start-all",(0,v.J)((()=>{(0,l.Ak)(e.agentIdentifier,this.featureName),this.auto=!0,this.importAggregator(e)})))}importAggregator(t,r={}){if(this.featAggregate||!this.auto)return;let n;this.onAggregateImported=new Promise((e=>{n=e}));const o=async()=>{let o;try{if((0,m.V)(this.agentIdentifier)){const{setupAgentSession:e}=await i.e(891).then(i.bind(i,6526));o=e(t)}}catch(t){(0,e.R)(20,t),this.ee.emit("internal-error",[t]),this.featureName===a.K7.sessionReplay&&this.abortHandler?.()}try{if(t.sharedAggregator)await t.sharedAggregator;else{t.sharedAggregator=i.e(891).then(i.bind(i,9337));const{EventAggregator:e}=await t.sharedAggregator;t.sharedAggregator=new e}if(!this.#t(this.featureName,o))return(0,l.Ze)(this.agentIdentifier,this.featureName),void n(!1);const{lazyFeatureLoader:e}=await i.e(891).then(i.bind(i,6103)),{Aggregate:a}=await e(this.featureName,"aggregate");this.featAggregate=new a(t,r),n(!0)}catch(t){(0,e.R)(34,t),this.abortHandler?.(),(0,l.Ze)(this.agentIdentifier,this.featureName,!0),n(!1),this.ee&&this.ee.abort()}};g.RI?(0,h.GG)((()=>o()),!0):o()}#t(e,t){switch(e){case a.K7.sessionReplay:return(0,p.SR)(this.agentIdentifier)&&!!t;case a.K7.sessionTrace:return!!t;default:return!0}}}var y=i(6630);class R extends b{static featureName=y.T;constructor(e,t=!0){super(e,y.T,t),this.importAggregator(e)}}var x=i(384);var w=i(9908),T=i(2843),A=i(3878),E=i(782),S=i(1863);class _ extends b{static featureName=E.T;constructor(e,t=!0){super(e,E.T,t),g.RI&&((0,T.u)((()=>(0,w.p)("docHidden",[(0,S.t)()],void 0,E.T,this.ee)),!0),(0,A.sp)("pagehide",(()=>(0,w.p)("winPagehide",[(0,S.t)()],void 0,E.T,this.ee))),this.importAggregator(e))}}var O=i(3969);class N extends b{static featureName=O.TZ;constructor(e,t=!0){super(e,O.TZ,t),this.importAggregator(e)}}var I=i(6774),P=i(3304);class j{constructor(e,t,r,n,i){this.name="UncaughtError",this.message="string"==typeof e?e:(0,P.A)(e),this.sourceURL=t,this.line=r,this.column=n,this.__newrelic=i}}function C(e){return D(e)?e:new j(void 0!==e?.message?e.message:e,e?.filename||e?.sourceURL,e?.lineno||e?.line,e?.colno||e?.col,e?.__newrelic)}function k(e){const t="Unhandled Promise Rejection";if(!e?.reason)return;if(D(e.reason))try{return e.reason.message=t+": "+e.reason.message,C(e.reason)}catch(t){return C(e.reason)}const r=C(e.reason);return r.message=t+": "+r?.message,r}function H(e){if(e.error instanceof SyntaxError&&!/:\d+$/.test(e.error.stack?.trim())){const t=new j(e.message,e.filename,e.lineno,e.colno,e.error.__newrelic);return t.name=SyntaxError.name,t}return D(e.error)?e.error:C(e)}function D(e){return e instanceof Error&&!!e.stack}class L extends b{static featureName=I.T;#r=!1;constructor(e,r=!0){super(e,I.T,r);try{this.removeOnAbort=new AbortController}catch(e){}this.ee.on("internal-error",(e=>{this.abortHandler&&(0,w.p)("ierr",[C(e),(0,S.t)(),!0,{},this.#r],void 0,this.featureName,this.ee)})),this.ee.on(t.G4.REPLAY_RUNNING,(e=>{this.#r=e})),g.gm.addEventListener("unhandledrejection",(e=>{this.abortHandler&&(0,w.p)("err",[k(e),(0,S.t)(),!1,{unhandledPromiseRejection:1},this.#r],void 0,this.featureName,this.ee)}),(0,A.jT)(!1,this.removeOnAbort?.signal)),g.gm.addEventListener("error",(e=>{this.abortHandler&&(0,w.p)("err",[H(e),(0,S.t)(),!1,{},this.#r],void 0,this.featureName,this.ee)}),(0,A.jT)(!1,this.removeOnAbort?.signal)),this.abortHandler=this.#n,this.importAggregator(e)}#n(){this.removeOnAbort?.abort(),this.abortHandler=void 0}}var K=i(8990);let M=1;const U="nr@id";function V(e){const t=typeof e;return!e||"object"!==t&&"function"!==t?-1:e===g.gm?0:(0,K.I)(e,U,(function(){return M++}))}function G(e){if("string"==typeof e&&e.length)return e.length;if("object"==typeof e){if("undefined"!=typeof ArrayBuffer&&e instanceof ArrayBuffer&&e.byteLength)return e.byteLength;if("undefined"!=typeof Blob&&e instanceof Blob&&e.size)return e.size;if(!("undefined"!=typeof FormData&&e instanceof FormData))try{return(0,P.A)(e).length}catch(e){return}}}var F=i(8139),B=i(7836),W=i(3434);const z={},q=["open","send"];function Z(t){var r=t||B.ee;const n=function(e){return(e||B.ee).get("xhr")}(r);if(z[n.debugId]++)return n;z[n.debugId]=1,(0,F.u)(r);var i=(0,W.YM)(n),o=g.gm.XMLHttpRequest,a=g.gm.MutationObserver,s=g.gm.Promise,c=g.gm.setInterval,d="readystatechange",u=["onload","onerror","onabort","onloadstart","onloadend","onprogress","ontimeout"],l=[],f=g.gm.XMLHttpRequest=function(t){const r=new o(t),a=n.context(r);try{n.emit("new-xhr",[r],a),r.addEventListener(d,(s=a,function(){var e=this;e.readyState>3&&!s.resolved&&(s.resolved=!0,n.emit("xhr-resolved",[],e)),i.inPlace(e,u,"fn-",y)}),(0,A.jT)(!1))}catch(t){(0,e.R)(15,t);try{n.emit("internal-error",[t])}catch(e){}}var s;return r};function h(e,t){i.inPlace(t,["onreadystatechange"],"fn-",y)}if(function(e,t){for(var r in e)t[r]=e[r]}(o,f),f.prototype=o.prototype,i.inPlace(f.prototype,q,"-xhr-",y),n.on("send-xhr-start",(function(e,t){h(e,t),function(e){l.push(e),a&&(p?p.then(b):c?c(b):(m=-m,v.data=m))}(t)})),n.on("open-xhr-start",h),a){var p=s&&s.resolve();if(!c&&!s){var m=1,v=document.createTextNode(m);new a(b).observe(v,{characterData:!0})}}else r.on("fn-end",(function(e){e[0]&&e[0].type===d||b()}));function b(){for(var e=0;e<l.length;e++)h(0,l[e]);l.length&&(l=[])}function y(e,t){return t}return n}var Y="fetch-",X=Y+"body-",Q=["arrayBuffer","blob","json","text","formData"],J=g.gm.Request,ee=g.gm.Response,te="prototype";const re={};function ne(e){const t=function(e){return(e||B.ee).get("fetch")}(e);if(!(J&&ee&&g.gm.fetch))return t;if(re[t.debugId]++)return t;function r(e,r,n){var i=e[r];"function"==typeof i&&(e[r]=function(){var e,r=[...arguments],o={};t.emit(n+"before-start",[r],o),o[B.P]&&o[B.P].dt&&(e=o[B.P].dt);var a=i.apply(this,r);return t.emit(n+"start",[r,e],a),a.then((function(e){return t.emit(n+"end",[null,e],a),e}),(function(e){throw t.emit(n+"end",[e],a),e}))})}return re[t.debugId]=1,Q.forEach((e=>{r(J[te],e,X),r(ee[te],e,X)})),r(g.gm,"fetch",Y),t.on(Y+"end",(function(e,r){var n=this;if(r){var i=r.headers.get("content-length");null!==i&&(n.rxSize=i),t.emit(Y+"done",[null,r],n)}else t.emit(Y+"done",[e],n)})),t}var ie=i(7485),oe=i(5603);class ae{constructor(e){this.agentIdentifier=e}generateTracePayload(e){if(!this.shouldGenerateTrace(e))return null;var t=(0,oe.o)(this.agentIdentifier);if(!t)return null;var n=(t.accountID||"").toString()||null,i=(t.agentID||"").toString()||null,o=(t.trustKey||"").toString()||null;if(!n||!i)return null;var a=(0,r.ZF)(),s=(0,r.el)(),c=Date.now(),d={spanId:a,traceId:s,timestamp:c};return(e.sameOrigin||this.isAllowedOrigin(e)&&this.useTraceContextHeadersForCors())&&(d.traceContextParentHeader=this.generateTraceContextParentHeader(a,s),d.traceContextStateHeader=this.generateTraceContextStateHeader(a,c,n,i,o)),(e.sameOrigin&&!this.excludeNewrelicHeader()||!e.sameOrigin&&this.isAllowedOrigin(e)&&this.useNewrelicHeaderForCors())&&(d.newrelicHeader=this.generateTraceHeader(a,s,c,n,i,o)),d}generateTraceContextParentHeader(e,t){return"00-"+t+"-"+e+"-01"}generateTraceContextStateHeader(e,t,r,n,i){return i+"@nr=0-1-"+r+"-"+n+"-"+e+"----"+t}generateTraceHeader(e,t,r,n,i,o){if(!("function"==typeof g.gm?.btoa))return null;var a={v:[0,1],d:{ty:"Browser",ac:n,ap:i,id:e,tr:t,ti:r}};return o&&n!==o&&(a.d.tk=o),btoa((0,P.A)(a))}shouldGenerateTrace(e){return this.isDtEnabled()&&this.isAllowedOrigin(e)}isAllowedOrigin(e){var t=!1,r={};if((0,s.gD)(this.agentIdentifier,"distributed_tracing")&&(r=(0,s.D0)(this.agentIdentifier).distributed_tracing),e.sameOrigin)t=!0;else if(r.allowed_origins instanceof Array)for(var n=0;n<r.allowed_origins.length;n++){var i=(0,ie.D)(r.allowed_origins[n]);if(e.hostname===i.hostname&&e.protocol===i.protocol&&e.port===i.port){t=!0;break}}return t}isDtEnabled(){var e=(0,s.gD)(this.agentIdentifier,"distributed_tracing");return!!e&&!!e.enabled}excludeNewrelicHeader(){var e=(0,s.gD)(this.agentIdentifier,"distributed_tracing");return!!e&&!!e.exclude_newrelic_header}useNewrelicHeaderForCors(){var e=(0,s.gD)(this.agentIdentifier,"distributed_tracing");return!!e&&!1!==e.cors_use_newrelic_header}useTraceContextHeadersForCors(){var e=(0,s.gD)(this.agentIdentifier,"distributed_tracing");return!!e&&!!e.cors_use_tracecontext_headers}}var se=i(9300),ce=i(7295),de=["load","error","abort","timeout"],ue=de.length,le=(0,x.dV)().o.REQ,fe=(0,x.dV)().o.XHR;class he extends b{static featureName=se.T;constructor(e,t=!0){super(e,se.T,t),this.dt=new ae(e.agentIdentifier),this.handler=(e,t,r,n)=>(0,w.p)(e,t,r,n,this.ee);try{const e={xmlhttprequest:"xhr",fetch:"fetch",beacon:"beacon"};g.gm?.performance?.getEntriesByType("resource").forEach((t=>{if(t.initiatorType in e&&0!==t.responseStatus){const r={status:t.responseStatus},n={rxSize:t.transferSize,duration:Math.floor(t.duration),cbTime:0};ge(r,t.name),this.handler("xhr",[r,n,t.startTime,t.responseEnd,e[t.initiatorType]],void 0,a.K7.ajax)}}))}catch(e){}ne(this.ee),Z(this.ee),function(e,t,r,n){function i(e){var t=this;t.totalCbs=0,t.called=0,t.cbTime=0,t.end=x,t.ended=!1,t.xhrGuids={},t.lastSize=null,t.loadCaptureCalled=!1,t.params=this.params||{},t.metrics=this.metrics||{},e.addEventListener("load",(function(r){T(t,e)}),(0,A.jT)(!1)),g.lR||e.addEventListener("progress",(function(e){t.lastSize=e.loaded}),(0,A.jT)(!1))}function o(e){this.params={method:e[0]},ge(this,e[1]),this.metrics={}}function s(t,r){e.loader_config.xpid&&this.sameOrigin&&r.setRequestHeader("X-NewRelic-ID",e.loader_config.xpid);var i=n.generateTracePayload(this.parsedOrigin);if(i){var o=!1;i.newrelicHeader&&(r.setRequestHeader("newrelic",i.newrelicHeader),o=!0),i.traceContextParentHeader&&(r.setRequestHeader("traceparent",i.traceContextParentHeader),i.traceContextStateHeader&&r.setRequestHeader("tracestate",i.traceContextStateHeader),o=!0),o&&(this.dt=i)}}function c(e,r){var n=this.metrics,i=e[0],o=this;if(n&&i){var a=G(i);a&&(n.txSize=a)}this.startTime=(0,S.t)(),this.body=i,this.listener=function(e){try{"abort"!==e.type||o.loadCaptureCalled||(o.params.aborted=!0),("load"!==e.type||o.called===o.totalCbs&&(o.onloadCalled||"function"!=typeof r.onload)&&"function"==typeof o.end)&&o.end(r)}catch(e){try{t.emit("internal-error",[e])}catch(e){}}};for(var s=0;s<ue;s++)r.addEventListener(de[s],this.listener,(0,A.jT)(!1))}function d(e,t,r){this.cbTime+=e,t?this.onloadCalled=!0:this.called+=1,this.called!==this.totalCbs||!this.onloadCalled&&"function"==typeof r.onload||"function"!=typeof this.end||this.end(r)}function u(e,t){var r=""+V(e)+!!t;this.xhrGuids&&!this.xhrGuids[r]&&(this.xhrGuids[r]=!0,this.totalCbs+=1)}function l(e,t){var r=""+V(e)+!!t;this.xhrGuids&&this.xhrGuids[r]&&(delete this.xhrGuids[r],this.totalCbs-=1)}function f(){this.endTime=(0,S.t)()}function h(e,r){r instanceof fe&&"load"===e[0]&&t.emit("xhr-load-added",[e[1],e[2]],r)}function p(e,r){r instanceof fe&&"load"===e[0]&&t.emit("xhr-load-removed",[e[1],e[2]],r)}function m(e,t,r){t instanceof fe&&("onload"===r&&(this.onload=!0),("load"===(e[0]&&e[0].type)||this.onload)&&(this.xhrCbStart=(0,S.t)()))}function v(e,r){this.xhrCbStart&&t.emit("xhr-cb-time",[(0,S.t)()-this.xhrCbStart,this.onload,r],r)}function b(e){var t,r=e[1]||{};if("string"==typeof e[0]?0===(t=e[0]).length&&g.RI&&(t=""+g.gm.location.href):e[0]&&e[0].url?t=e[0].url:g.gm?.URL&&e[0]&&e[0]instanceof URL?t=e[0].href:"function"==typeof e[0].toString&&(t=e[0].toString()),"string"==typeof t&&0!==t.length){t&&(this.parsedOrigin=(0,ie.D)(t),this.sameOrigin=this.parsedOrigin.sameOrigin);var i=n.generateTracePayload(this.parsedOrigin);if(i&&(i.newrelicHeader||i.traceContextParentHeader))if(e[0]&&e[0].headers)s(e[0].headers,i)&&(this.dt=i);else{var o={};for(var a in r)o[a]=r[a];o.headers=new Headers(r.headers||{}),s(o.headers,i)&&(this.dt=i),e.length>1?e[1]=o:e.push(o)}}function s(e,t){var r=!1;return t.newrelicHeader&&(e.set("newrelic",t.newrelicHeader),r=!0),t.traceContextParentHeader&&(e.set("traceparent",t.traceContextParentHeader),t.traceContextStateHeader&&e.set("tracestate",t.traceContextStateHeader),r=!0),r}}function y(e,t){this.params={},this.metrics={},this.startTime=(0,S.t)(),this.dt=t,e.length>=1&&(this.target=e[0]),e.length>=2&&(this.opts=e[1]);var r,n=this.opts||{},i=this.target;"string"==typeof i?r=i:"object"==typeof i&&i instanceof le?r=i.url:g.gm?.URL&&"object"==typeof i&&i instanceof URL&&(r=i.href),ge(this,r);var o=(""+(i&&i instanceof le&&i.method||n.method||"GET")).toUpperCase();this.params.method=o,this.body=n.body,this.txSize=G(n.body)||0}function R(e,t){if(this.endTime=(0,S.t)(),this.params||(this.params={}),(0,ce.iW)(this.params))return;let n;this.params.status=t?t.status:0,"string"==typeof this.rxSize&&this.rxSize.length>0&&(n=+this.rxSize);const i={txSize:this.txSize,rxSize:n,duration:(0,S.t)()-this.startTime};r("xhr",[this.params,i,this.startTime,this.endTime,"fetch"],this,a.K7.ajax)}function x(e){const t=this.params,n=this.metrics;if(!this.ended){this.ended=!0;for(let t=0;t<ue;t++)e.removeEventListener(de[t],this.listener,!1);t.aborted||(0,ce.iW)(t)||(n.duration=(0,S.t)()-this.startTime,this.loadCazptureCalled||4!==e.readyState?null==t.status&&(t.status=0):T(this,e),n.cbTime=this.cbTime,r("xhr",[t,n,this.startTime,this.endTime,"xhr"],this,a.K7.ajax))}}function T(e,r){e.params.status=r.status;var n=function(e,t){var r=e.responseType;return"json"===r&&null!==t?t:"arraybuffer"===r||"blob"===r||"json"===r?G(e.response):"text"===r||""===r||void 0===r?G(e.responseText):void 0}(r,e.lastSize);if(n&&(e.metrics.rxSize=n),e.sameOrigin){var i=r.getResponseHeader("X-NewRelic-App-Data");i&&((0,w.p)(O.rs,["Ajax/CrossApplicationTracing/Header/Seen"],void 0,a.K7.metrics,t),e.params.cat=i.split(", ").pop())}e.loadCaptureCalled=!0}t.on("new-xhr",i),t.on("open-xhr-start",o),t.on("open-xhr-end",s),t.on("send-xhr-start",c),t.on("xhr-cb-time",d),t.on("xhr-load-added",u),t.on("xhr-load-removed",l),t.on("xhr-resolved",f),t.on("addEventListener-end",h),t.on("removeEventListener-end",p),t.on("fn-end",v),t.on("fetch-before-start",b),t.on("fetch-start",y),t.on("fn-start",m),t.on("fetch-done",R)}(e,this.ee,this.handler,this.dt),this.importAggregator(e)}}function ge(e,t){var r=(0,ie.D)(t),n=e.params||e;n.hostname=r.hostname,n.port=r.port,n.protocol=r.protocol,n.host=r.hostname+":"+r.port,n.pathname=r.pathname,e.parsedOrigin=r,e.sameOrigin=r.sameOrigin}const pe={},me=["pushState","replaceState"];function ve(e){const t=function(e){return(e||B.ee).get("history")}(e);return!g.RI||pe[t.debugId]++||(pe[t.debugId]=1,(0,W.YM)(t).inPlace(window.history,me,"-")),t}var be=i(3738);const{He:ye,bD:Re,d3:xe,Kp:we,TZ:Te,Lc:Ae,uP:Ee,Rz:Se}=be;class _e extends b{static featureName=Te;constructor(e,t=!0){super(e,Te,t);if(!(0,m.V)(this.agentIdentifier))return void this.deregisterDrain();const r=this.ee;let n;ve(r),this.eventsEE=(0,F.u)(r),this.eventsEE.on(Ee,(function(e,t){this.bstStart=(0,S.t)()})),this.eventsEE.on(Ae,(function(e,t){(0,w.p)("bst",[e[0],t,this.bstStart,(0,S.t)()],void 0,a.K7.sessionTrace,r)})),r.on(Se+xe,(function(e){this.time=(0,S.t)(),this.startPath=location.pathname+location.hash})),r.on(Se+we,(function(e){(0,w.p)("bstHist",[location.pathname+location.hash,this.startPath,this.time],void 0,a.K7.sessionTrace,r)}));try{n=new PerformanceObserver((e=>{const t=e.getEntries();(0,w.p)(ye,[t],void 0,a.K7.sessionTrace,r)})),n.observe({type:Re,buffered:!0})}catch(e){}this.importAggregator(e,{resourceObserver:n})}}var Oe=i(2614);class Ne extends b{static featureName=t.TZ;#i;#o;constructor(e,r=!0){let n;super(e,t.TZ,r),this.replayRunning=!1,this.#o=e;try{n=JSON.parse(localStorage.getItem("".concat(Oe.H3,"_").concat(Oe.uh)))}catch(e){}(0,p.SR)(e.agentIdentifier)&&this.ee.on(t.G4.RECORD,(()=>this.#a())),this.#s(n)?(this.#i=n?.sessionReplayMode,this.#c()):this.importAggregator(e),this.ee.on("err",(e=>{this.replayRunning&&(this.errorNoticed=!0,(0,w.p)(t.G4.ERROR_DURING_REPLAY,[e],void 0,this.featureName,this.ee))})),this.ee.on(t.G4.REPLAY_RUNNING,(e=>{this.replayRunning=e}))}#s(e){return e&&(e.sessionReplayMode===Oe.g.FULL||e.sessionReplayMode===Oe.g.ERROR)||(0,p.Aw)(this.agentIdentifier)}#d=!1;async#c(e){if(!this.#d){this.#d=!0;try{const{Recorder:t}=await Promise.all([i.e(891),i.e(222)]).then(i.bind(i,8589));this.recorder??=new t({mode:this.#i,agentIdentifier:this.agentIdentifier,trigger:e,ee:this.ee}),this.recorder.startRecording(),this.abortHandler=this.recorder.stopRecording}catch(e){}this.importAggregator(this.#o,{recorder:this.recorder,errorNoticed:this.errorNoticed})}}#a(){this.featAggregate?this.featAggregate.mode!==Oe.g.FULL&&this.featAggregate.initializeRecording(Oe.g.FULL,!0):(this.#i=Oe.g.FULL,this.#c(t.Qb.API),this.recorder&&this.recorder.parent.mode!==Oe.g.FULL&&(this.recorder.parent.mode=Oe.g.FULL,this.recorder.stopRecording(),this.recorder.startRecording(),this.abortHandler=this.recorder.stopRecording))}}var Ie=i(3333);class Pe extends b{static featureName=Ie.TZ;constructor(e,t=!0){super(e,Ie.TZ,t);const r=[e.init.page_action.enabled,e.init.performance.capture_marks,e.init.performance.capture_measures,e.init.user_actions.enabled];g.RI&&e.init.user_actions.enabled&&(Ie.Zp.forEach((e=>(0,A.sp)(e,(e=>(0,w.p)("ua",[e],void 0,this.featureName,this.ee)),!0))),Ie.qN.forEach((e=>(0,A.sp)(e,(e=>(0,w.p)("ua",[e],void 0,this.featureName,this.ee)))))),r.some((e=>e))?this.importAggregator(e):this.deregisterDrain()}}var je=i(993),Ce=i(3785);class ke extends b{static featureName=je.TZ;constructor(e,t=!0){super(e,je.TZ,t);const r=this.ee;this.ee.on("wrap-logger-end",(function([e]){const{level:t,customAttributes:n}=this;(0,Ce.R)(r,e,n,t)})),this.importAggregator(e)}}new class extends o{constructor(t,r){super(r),g.gm?(this.features={},(0,x.bQ)(this.agentIdentifier,this),this.desiredFeatures=new Set(t.features||[]),this.desiredFeatures.add(R),this.runSoftNavOverSpa=[...this.desiredFeatures].some((e=>e.featureName===a.K7.softNav)),(0,u.j)(this,t,t.loaderType||"agent"),this.run()):(0,e.R)(21)}get config(){return{info:this.info,init:this.init,loader_config:this.loader_config,runtime:this.runtime}}run(){try{const t=d(this.agentIdentifier),r=[...this.desiredFeatures];r.sort(((e,t)=>a.P3[e.featureName]-a.P3[t.featureName])),r.forEach((r=>{if(!t[r.featureName]&&r.featureName!==a.K7.pageViewEvent)return;if(this.runSoftNavOverSpa&&r.featureName===a.K7.spa)return;if(!this.runSoftNavOverSpa&&r.featureName===a.K7.softNav)return;const n=function(e){switch(e){case a.K7.ajax:return[a.K7.jserrors];case a.K7.sessionTrace:return[a.K7.ajax,a.K7.pageViewEvent];case a.K7.sessionReplay:return[a.K7.sessionTrace];case a.K7.pageViewTiming:return[a.K7.pageViewEvent];default:return[]}}(r.featureName).filter((e=>!(e in this.features)));n.length>0&&(0,e.R)(36,{targetFeature:r.featureName,missingDependencies:n}),this.features[r.featureName]=new r(this)}))}catch(t){(0,e.R)(22,t);for(const e in this.features)this.features[e].abortHandler?.();const r=(0,x.Zm)();delete r.initializedAgents[this.agentIdentifier]?.api,delete r.initializedAgents[this.agentIdentifier]?.features,delete this.sharedAggregator;return r.ee.get(this.agentIdentifier).abort(),!1}}}({features:[R,_,_e,Ne,he,N,L,Pe,ke],loaderType:"pro"})})()})();</script> <meta name="keywords" content="ATG5, ATG5 Antibody (NB110-53818), Novus Biologicals, NB110-53818" /> <link rel="canonical" href="https://www.novusbio.com/products/atg5-antibody_nb110-53818" /> <meta refresh_date="11/26/2024 3:05:53 AM" /> <title>ATG5 Antibody - BSA Free (NB110-53818): Novus Biologicals</title> <meta name="description" content="Cited in 285 publications. View knockout-validated Rabbit Polyclonal anti-ATG5 Antibody - BSA Free (NB110-53818). Validated Applications: WB, Simple Western, ELISA, Flow, Func, ICC/IF, IHC, IP, MS, WB, KD, KO. Validated Species: Human, Mouse, Rat + more. Validated by: Genetic Strategies. Sample size available. Range of directly conjugated antibodies available." /> <meta property="og:description" content="Cited in 285 publications. View knockout-validated Rabbit Polyclonal anti-ATG5 Antibody - BSA Free (NB110-53818). Validated Applications: WB, Simple Western, ELISA, Flow, Func, ICC/IF, IHC, IP, MS, WB, KD, KO. Validated Species: Human, Mouse, Rat + more. Validated by: Genetic Strategies. Sample size available. Range of directly conjugated antibodies available." /> <meta property="og:image" content="//images.novusbio.com/thumbnails/nb110-53818_rabbit-polyclonal-atg5-antibody-30820241044550.jpg" /> <meta name="robots" content="index,follow" /> <meta name="baidu-site-verification" content="xQr2vSIwwB" /> <script id="json-ld" type="application/ld+json">[{"@context":"http://schema.org","@type":"Product","description":"Rabbit Polyclonal Anti-ATG5 Antibody. Tested Applications: Western Blot, ICC, IHC, IHC-Paraffin, IP. Tested Reactivity: Human, Mouse, Rat, Bovine, Primate, Porcine, Xenopus, Zebrafish.","aggregateRating":{"@type":"AggregateRating","ratingValue":4.2999999999999998,"reviewCount":8},"offers":[],"url":"https://www.novusbio.com/products/atg5-antibody_nb110-53818","name":"ATG5 Antibody - BSA Free","productID":"NB110-53818","mpn":"NB110-53818","sku":"NB110-53818","brand":{"@type":"Brand","name":"Novus Biologicals"},"itemcondition":"new","image":[{"@type":"ImageObject","url":"//images.novusbio.com/fullsize/nb110-53818_rabbit-polyclonal-atg5-antibody-30820241044550.jpg","caption":"Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - ERK phosphorylation in Atg5-/-cells depends on nutrient availability. Serum-deprived Atg5-/- MEFs display decreased ERK and p90RSK phosphorylation. Immunoblots for the indicated proteins in total lysates from 2 h serum-deprived WT and Atg5-/- MEFs. The bars represent mean+/-s.e.m. *P 0.9999), as compared to CQ (50 uM) only, a dose that did not completely inhibit autophagy. Data represent mean +- SEM. (H) N27 cells were treated with 62.5 or 125 uM of MnCl2 for 24h, then incubated with LysoSensor Yellow/Blue. The ratio of acidic (yellow) vs. neutral (blue) pH of lysosomes were quantified using a plate reader. (I) N27 cells were treated with Mn 125 uM, CQ50 uM or both for 24h, followed by immunoblotting for Atg5, a marker for autophagosomes, using Jess (ProteinSimple, Inc.) (J) Total protein per capillary was used as loading control to normalize the levels of Atg5. Mn did not further increase the accumulation of autophagosomes when combined with CQ versus CQ alone (P = 0.9998). All data represent mean +- SEM (n = 3-4 independent experiments with approximately 30 cells per experiment for E and G) and groups were compared by using Kruskal-Wallis ANOVA test with Dunn's post-hoc test; ns: non-significant. Image collected and cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/24957904), licensed under a CC-BY license. Not internally tested by R&D Systems. Image collected and cropped by CiteAb from the following publication (//molecularneurodegeneration.biomedcentral.com/articles/10.1186/s13024-024-00708-w ), licensed under a CC-BY license. Not internally tested by Novus Biologicals.","width":400,"height":400},{"@type":"ImageObject","url":"//images.novusbio.com/fullsize/nb110-53818_rabbit-polyclonal-atg5-antibody-31020241624916.jpg","caption":"ATG5 & ATG7 enhanced autophagy & inhibited ER stress in chondrocyte. a Western blotting analysis of LC3, P62, ATG5, ATG7 & ATG5-ATG12 expression after infected with Ad-ATG5, Ad-ATG7 & Ad-ATG5\u2009+\u2009Ad-ATG7 in the\u00a0C28I2 cells. beta -actin is served as an internal control. b Qualitative analysis of ATG5, ATG7, ATG5-ATG12, LC3 & P62. The values were normalized to beta -actin. c C28I2 cells were double stained with LC3 (red) & DAPI (blue) & visualized by confocal microscopy (400X) after treated with Rapamycine, Ad-ATG5, Ad-ATG7 & Ad-ATG5\u2009+\u2009Ad-ATG7 24\u2009h. *P\u00a0UAS\u2010Atg5\u2010RNAi flies (Atg5\u2010RNAi). Atg5 was reduced in Atg5\u2010RNAi flies (n\u00a0=\u00a06, one\u2010way ANOVA, *P\u00a0<\u00a00.05 vs. control). (D, E) Downregulation of autophagy abolished the beta \u2010GPA\u2010mediated lifespan extension (n\u00a0=\u00a0200, P\u00a0<\u00a00.0001 vs. control, log\u2010rank test). For all Western blots, relative band intensity was estimated using IMAGEJ. Data are shown as mean\u00a0\u00b1\u00a0SEM. Image collected & cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/26120775), licensed under a CC-BY license. Not internally tested by Novus Biologicals.","width":400,"height":400},{"@type":"ImageObject","url":"//images.novusbio.com/fullsize/nb110-53818_rabbit-polyclonal-atg5-antibody-3102024162495.jpg","caption":"Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - Differences in neuronal autophagy & dendrite varicosity following HIV-1 Tat protein & morphine treatment. (A) Representative images of neurons transfected with a fluorescent reporter plasmid to monitor autophagic flux at 8 h following the indicated treatments. GFP (green) & GFP + mRFP (yellow) fluorescence are observed prior to the fusion of autophagosomes with lysosomes whereas only mRFP (red) fluorescence is present in post-fusion autolysosomes. DIC, differential interference contrast microscopy image. DAPI (blue) staining indicates cell nuclei. (B) Quantification of autolysosomes (red puncta) from (A). F(3,13) = 8.756, p = 0.0019; \u2217p < 0.05 when compared to all other groups. (C) Western blotting analysis of the indicated autophagy associated protein levels at 24 h following the indicated treatments. GAPDH was used as a loading control. Blots are representative of three independent experiments. (D) Quantification of dendrite beading from (A). F(3,77) = 6.429, p = 0.0006; \u2217p < 0.05 when compared to control cells. Error bars show the SEM. Image collected & cropped by CiteAb from the following publication (//journal.frontiersin.org/Article/10.3389/fmicb.2015.00653/abstract), licensed under a CC-BY license. Not internally tested by Novus Biologicals.","width":400,"height":400}],"review":[{"@type":"Review","author":"Armen Petrosyan","datePublished":"Jun 27 2023 9:47PM","name":"ATG5 Antibody - BSA Free","reviewRating":{"@type":"Rating","bestRating":"5","ratingValue":5,"worstRating":"1"}},{"@type":"Review","author":"Anonymous","datePublished":"Sep 15 2020 10:49PM","name":"ATG5 Antibody - BSA Free","reviewRating":{"@type":"Rating","bestRating":"5","ratingValue":4,"worstRating":"1"}},{"@type":"Review","author":"Anonymous","datePublished":"Mar 31 2018 5:22AM","name":"ATG5 Antibody - BSA Free","reviewRating":{"@type":"Rating","bestRating":"5","ratingValue":4,"worstRating":"1"}},{"@type":"Review","author":"Anonymous","datePublished":"Dec 15 2017 7:16PM","name":"ATG5 Antibody - BSA Free","reviewRating":{"@type":"Rating","bestRating":"5","ratingValue":4,"worstRating":"1"}},{"@type":"Review","author":"Merissa Olmer","datePublished":"Oct 4 2014 6:06PM","name":"ATG5 Antibody - BSA Free","reviewRating":{"@type":"Rating","bestRating":"5","ratingValue":4,"worstRating":"1"}},{"@type":"Review","author":"Ann Marie Santiago","datePublished":"Sep 21 2012 2:04PM","name":"ATG5 Antibody - BSA Free","reviewRating":{"@type":"Rating","bestRating":"5","ratingValue":4,"worstRating":"1"}},{"@type":"Review","author":"Anonymous","datePublished":"Dec 20 2011 8:54PM","name":"ATG5 Antibody - BSA Free","reviewRating":{"@type":"Rating","bestRating":"5","ratingValue":4,"worstRating":"1"}},{"@type":"Review","author":"Anonymous","datePublished":"Nov 16 2011 9:00PM","name":"ATG5 Antibody - BSA Free","reviewRating":{"@type":"Rating","bestRating":"5","ratingValue":5,"worstRating":"1"}}],"isRelatedTo":[{"@type":"Product","name":"ATG5 Antibodies","url":"https://www.novusbio.com/primary-antibodies/atg5"},{"@type":"Product","name":"ATG5 Lysate","url":"https://www.novusbio.com/lysates/atg5"},{"@type":"Product","name":"ATG5 Proteins","url":"https://www.novusbio.com/proteins/atg5"}],"additionalProperty":[{"@type":"PropertyValue","name":"APPLICATIONS","value":"WB, Simple Western, ELISA, Flow, Func, ICC/IF, IHC, IP, MS, WB, KD, KO"},{"@type":"PropertyValue","name":"REACTIVITY","value":"Human, Mouse, Rat, Porcine, Alligator, Bovine, Drosophila, Fish, Guinea Pig, Primate, Xenopus, Zebrafish"},{"@type":"PropertyValue","name":"Clonality","value":"Polyclonal"},{"@type":"PropertyValue","name":"Host","value":"Rabbit"},{"@type":"PropertyValue","name":"Conjugate","value":"Unconjugated"}]},{"@context":"http://schema.org","@type":"SiteNavigationElement","about":[{"@type":"Thing","url":"/support/sars-cov-research-resources","name":"COVID-19 Research Tools"},{"@type":"Thing","url":"/productsearch/novus","name":"Antibodies"},{"@type":"Thing","url":"/products/primary-antibodies","name":"Primary Antibodies"},{"@type":"Thing","url":"/conjugatedantibodies.html","name":"Conjugated Antibodies"},{"@type":"Thing","url":"/samplesize","name":"Sample Size Antibodies"},{"@type":"Thing","url":"/products/crispr-cas9-genetic-knockout-antibody-validation-reproducibility","name":"KO Validated Antibodies"},{"@type":"Thing","url":"https://www.novusbio.com/recombinant-monoclonals","name":"Recombinant Antibodies"},{"@type":"Thing","url":"/product-type/antibody-packs","name":"Antibody Sampler Packs"},{"@type":"Thing","url":"/product-type/antibody-pairs","name":"Antibody Pairs"},{"@type":"Thing","url":"/support/GeneralSecondaryAntibodies","name":"Secondary Antibodies"},{"@type":"Thing","url":"/products/isotype-controls","name":"Isotype Control Antibodies"},{"@type":"Thing","url":"/product-type/peptides-and-proteins","name":"Proteins and Peptides"},{"@type":"Thing","url":"/products/peptides-and-proteins","name":"Peptides & Proteins"},{"@type":"Thing","url":"/support/blocking-with-immunizing-peptide","name":"Blocking Peptides"},{"@type":"Thing","url":"/product-type/peptides-and-proteins%3Fapplications%3DBioactivity","name":"Biologically Active Proteins"},{"@type":"Thing","url":"https://www.novusbio.com/product-type/lysates","name":"Lysates and Cell Lines"},{"@type":"Thing","url":"/product-type/lysates","name":"Lysates"},{"@type":"Thing","url":"/research-areas/stem-cells/stem-cell-lines.html","name":"Stem Cell Lines"},{"@type":"Thing","url":"/product-type/kits","name":"Kits"},{"@type":"Thing","url":"/Lightning-Link%20Antibody%20Labeling%20Kits","name":"Antibody Labeling Kits"},{"@type":"Thing","url":"/product-type/kits%3Fcategory%3DKits%26kit_type%3DChIP%2520Kit","name":"ChIP Kits"},{"@type":"Thing","url":"/products/elisa-kits","name":"ELISA Kits"},{"@type":"Thing","url":"/product-type/kits%3Fcategory%3DKits%26kit_type%3DFlow%2520Cytometry%2520Kit","name":"Flow Cytometry Kits"},{"@type":"Thing","url":"/product-type/support-products%3Fcategory%3DSupport%2520Products%26applications%3DLigand%2520Activation","name":"Activators and Inhibitors"},{"@type":"Thing","url":"/product-type/inhibitors","name":"Inhibitors"},{"@type":"Thing","url":"/product-type/support-products%3Fcategory%3DSupport%2520Products%26applications%3DLigand%2520Activation","name":"Activators"},{"@type":"Thing","url":"/product-type/support-products","name":"Support Products"},{"@type":"Thing","url":"/research-topics/cell-biology/exosome-isolation-and-detection","name":"Exosome Isolation"},{"@type":"Thing","url":"/products/flow-cytometry-quality-control-beads","name":"Flow Cytometry Beads"},{"@type":"Thing","url":"/control-slides","name":"IHC Tissue Slides"},{"@type":"Thing","url":"/tissue-microarrays","name":"IHC Microarrays"},{"@type":"Thing","url":"/search%3Fkeywords%3Drunblue","name":"Western Blot Gels & Buffers"},{"@type":"Thing","url":"/product-type/wb-membranes","name":"Western Blot Membranes"},{"@type":"Thing","url":"/product-type/support-products","name":"All Support Products"},{"@type":"Thing","url":"/support/bulk-and-custom.html","name":"Bulk and Custom"},{"@type":"Thing","url":"/support.html","name":"Resources"},{"@type":"Thing","url":"/support/support-by-application.html","name":"Protocols"},{"@type":"Thing","url":"/support/video-protocols","name":"Video Protocols"},{"@type":"Thing","url":"/support/troubleshooting","name":"Troubleshooting Guides"},{"@type":"Thing","url":"/mailing-list","name":"Posters and Literature"},{"@type":"Thing","url":"/support/handbooks-and-guides","name":"Handbooks and Guides"},{"@type":"Thing","url":"/resources/calculators","name":"Calculators"},{"@type":"Thing","url":"/support/faqs.html","name":"FAQs"},{"@type":"Thing","url":"/antibody-news","name":"Blogs"},{"@type":"Thing","url":"/all-diseases.html","name":"Diseases"},{"@type":"Thing","url":"/whitepapers.html","name":"Whitepapers"},{"@type":"Thing","url":"/webform/help-finding-antibodies","name":"Antibody Concierge"},{"@type":"Thing","url":"/webinar","name":"Webinars"},{"@type":"Thing","url":"/research-tools.html","name":"Tools"},{"@type":"Thing","url":"/spectraviewer","name":"Spectra Viewer"},{"@type":"Thing","url":"/novusknowsflow.html","name":"Flow Cytometry Panel Builder"},{"@type":"Thing","url":"/application","name":"Application"},{"@type":"Thing","url":"/application/elisa","name":"ELISA"},{"@type":"Thing","url":"/application/flow-cytometry","name":"Flow Cytometry"},{"@type":"Thing","url":"https://www.novusbio.com/products/antibodies-cytof","name":"Mass Cytometry (CyTOF)"},{"@type":"Thing","url":"/application/icc","name":"ICC"},{"@type":"Thing","url":"/application/ihc","name":"IHC"},{"@type":"Thing","url":"/application/western-blotting","name":"Western Blotting"},{"@type":"Thing","url":"/interviews","name":"Interviews"},{"@type":"Thing","url":"/faculty/faculty-interviews","name":"Faculty"},{"@type":"Thing","url":"/postdoc/postdoc-interviews","name":"Postdoc"},{"@type":"Thing","url":"/research-areas.html","name":"By Research Area"},{"@type":"Thing","url":"/apoptosis-pathway","name":"Apoptosis"},{"@type":"Thing","url":"/autophagy-pathway","name":"Autophagy"},{"@type":"Thing","url":"/research-areas/cancer","name":"Cancer"},{"@type":"Thing","url":"/research-areas/cell-biology","name":"Cell Biology"},{"@type":"Thing","url":"/research-areas/cellular-markers","name":"Cellular Markers"},{"@type":"Thing","url":"/research-areas/epigenetics","name":"Epigenetics"},{"@type":"Thing","url":"/research-areas/epitope-tags","name":"Epitope Tags"},{"@type":"Thing","url":"/research-areas/cell-biology/Exosome-research-tools","name":"Exosomes Research"},{"@type":"Thing","url":"/research-areas/hypoxia","name":"Hypoxia"},{"@type":"Thing","url":"/research-areas/immunology","name":"Immunology"},{"@type":"Thing","url":"/research-areas/microbiology","name":"Microbiology"},{"@type":"Thing","url":"/research-areas/neuroscience","name":"Neuroscience"},{"@type":"Thing","url":"/research-areas/stem-cells","name":"Stem Cells"},{"@type":"Thing","url":"/pathwaypages.html","name":"By Pathway"},{"@type":"Thing","url":"/akt-signaling-pathway","name":"AKT "},{"@type":"Thing","url":"/mapkerkpathway.html","name":"ERK1/2/5 Pathway"},{"@type":"Thing","url":"/hedgehogpathway.html","name":"Hedgehog"},{"@type":"Thing","url":"/hippo-pathway.html","name":"Hippo"},{"@type":"Thing","url":"/jnk-signaling-pathway","name":"JNK Pathway"},{"@type":"Thing","url":"/mtor-pathway","name":"mTOR"},{"@type":"Thing","url":"/necroptosis-pathway","name":"Necroptosis"},{"@type":"Thing","url":"/nfkbpathway","name":"NFKB Signaling"},{"@type":"Thing","url":"/p38mapkpathway.html","name":"p38 Signaling"},{"@type":"Thing","url":"/tgfbetapathway","name":"TGF Beta"},{"@type":"Thing","url":"/toll-like-receptors","name":"TLR"},{"@type":"Thing","url":"/programs.html","name":"Customer Care"},{"@type":"Thing","url":"/guarantee","name":"100% Guarantee"},{"@type":"Thing","url":"/support/innovators-reward.html","name":"Risk Free Testing"},{"@type":"Thing","url":"/about/rewards.html","name":"Novus Rewards Program"},{"@type":"Thing","url":"/publications","name":"Publication Rewards Program"},{"@type":"Thing","url":"/newlab.html","name":"New Lab Discount"},{"@type":"Thing","url":"/scholarship-program.html","name":"Scholarship"},{"@type":"Thing","url":"/travelgrant.html","name":"Travel Grants"},{"@type":"Thing","url":"/products/promotions","name":"Promotions"},{"@type":"Thing","url":"/about.html","name":"About us"},{"@type":"Thing","url":"https://www.bio-techne.com/about/careers","name":"Careers"},{"@type":"Thing","url":"/about/collaborations.html","name":"Collaborations"},{"@type":"Thing","url":"/about/events","name":"Events"},{"@type":"Thing","url":"/about/novus-story.html","name":"Novus Story"},{"@type":"Thing","url":"/about/novus-team.html","name":"Our Team"},{"@type":"Thing","url":"/about/novus-philanthropy.html","name":"Philanthropy"},{"@type":"Thing","url":"/about/press-release.html","name":"Press Releases"},{"@type":"Thing","url":"/why-choose-novus.html","name":"Why choose Novus"},{"@type":"Thing","url":"/about/contact-us.html","name":"Contact Us"},{"@type":"Thing","url":"/about/contact-us.html","name":"Customer Service"},{"@type":"Thing","url":"/novus-distributors/list","name":"Distributors"},{"@type":"Thing","url":"/support/technical-support.html","name":"Technical Support"}]},{"@context":"http://schema.org","@type":"WPFooter","about":[{"@type":"Thing","url":"https://www.novusbio.com/productsearch/novus","name":"Antibodies"},{"@type":"Thing","url":"https://www.novusbio.com/product-type/secondary-antibodies","name":"Secondary Antibodies"},{"@type":"Thing","url":"https://www.novusbio.com/product-type/isotype-controls","name":"Isotype Controls"},{"@type":"Thing","url":"https://www.novusbio.com/product-type/peptides-and-proteins","name":"Proteins and Peptides"},{"@type":"Thing","url":"https://www.novusbio.com/product-type/elisa-kits","name":"ELISA Kits"},{"@type":"Thing","url":"https://www.novusbio.com/samplesize","name":"Sample Size"},{"@type":"Thing","url":"https://www.novusbio.comhttps://www.novusbio.com/new-product-information-page.html","name":"New Products"},{"@type":"Thing","url":"https://www.novusbio.com/about.html","name":"About Us"},{"@type":"Thing","url":"https://www.novusbio.comhttps://www.bio-techne.com/about/careers","name":"Careers"},{"@type":"Thing","url":"https://www.novusbio.com/guarantee","name":"Novus Guarantee"},{"@type":"Thing","url":"https://www.novusbio.com/about/contact-us.html","name":"Contact Us"},{"@type":"Thing","url":"https://www.novusbio.com/about/novus-team.html","name":"Our Team"},{"@type":"Thing","url":"https://www.novusbio.com/support/customer-service/privacy-policy.html","name":"Privacy Policy"},{"@type":"Thing","url":"https://www.novusbio.com/novus-bio-sitemap.html","name":"Sitemap"},{"@type":"Thing","url":"https://www.novusbio.com/about/contact-us.html","name":"Contact Us"},{"@type":"Thing","url":"https://www.novusbio.com/support/customer-service/terms.html","name":"Terms & Conditions"},{"@type":"Thing","url":"https://www.novusbio.com/support/technical-support.html","name":"Technical Support"},{"@type":"Thing","url":"https://www.novusbio.com/support/faqs.html","name":"FAQs"},{"@type":"Thing","url":"https://www.novusbio.com/webform/help-finding-antibodies","name":"Help Finding Antibodies"},{"@type":"Thing","url":"https://www.novusbio.com/support/support-by-application.html","name":"Protocols"}]},{"@context":"http://schema.org","@type":"WebPage","breadcrumb":{"@context":"http://schema.org","@type":"BreadcrumbList","itemListElement":[{"@context":"http://schema.org","@type":"ListItem","position":1,"item":{"@context":"http://schema.org","@type":"Thing","@id":"https://www.novusbio.com/","name":"Home"}},{"@context":"http://schema.org","@type":"ListItem","position":2,"item":{"@context":"http://schema.org","@type":"Thing","@id":"https://www.novusbio.com/common-name/atg5","name":"ATG5"}},{"@context":"http://schema.org","@type":"ListItem","position":3,"item":{"@context":"http://schema.org","@type":"Thing","@id":"https://www.novusbio.com/primary-antibodies/atg5","name":"ATG5 Antibodies"}}]},"potentialaction":{"query":""}}]</script> <meta name="generator" content="Drupal 7 (https://www.drupal.org)" /> <link rel="shortlink" href="https://www.novusbio.com/products/atg5-antibody_nb110-53818" /> <meta property="og:site_name" content="Novus Biologicals" /> <meta property="og:type" content="article" /> <meta property="og:url" content="https://www.novusbio.com/products/atg5-antibody_nb110-53818" /> <meta property="og:title" content="ATG5 Antibody - BSA Free" /> <link type="text/css" rel="stylesheet" href="https://www.novusbio.com/sites/novusbio.com/files/css/css_LyQQziAp-Ie-zmhrx1RDdqrlziy3o8gvzDqRXCb00hg.css" media="all" /> <link type="text/css" rel="stylesheet" href="https://www.novusbio.com/sites/novusbio.com/files/css/css_PKXTPBTTuSBPF7NSrNT2twmpZB05BY2cuOTz_4_8ORI.css" media="all" /> <link type="text/css" rel="stylesheet" href="https://www.novusbio.com/sites/novusbio.com/files/css/css_epQTvxkLlfWLGSq94lW04RlDEK26840QgzyS2d_R_fw.css" media="all" /> <link type="text/css" rel="stylesheet" href="https://www.novusbio.com/sites/novusbio.com/files/css/css_9eZvvH8xiAz18sT-zmuTZfYzHdV0O-FbSNe_tS771K4.css" media="all" /> <link type="text/css" rel="stylesheet" href="https://www.novusbio.com/sites/novusbio.com/files/css/css_8-zvMULc0G5JczOUIWkZin0svexCP7R5pWo6msP_YwM.css" media="all" /> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_VUlliwzd-_is1_ryJskaiFlvPtaBpYuWsDxU6fMyUEk.js"></script> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_c8LbWbHV1txem3q8oAzuadnL-HiBShaQH_WRviNqT_g.js"></script> <script type="text/javascript"> <![CDATA[//><!]]> </script> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_4newT8cBOK9auTS1LAR6RL1VYq1INsyOKwxSb1E2BPI.js"></script> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_L-CbsMNxXdHxvTeHTLjdXGdqfQk0RETDYk8CikUPuJI.js"></script> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_4Vv8GAuPg4M6GWetVxgFDPNPYfVcP37nnmzoZnsPOj8.js"></script> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_V5Fwoup1DkxxL-Rm-7is5QWj_MZhigWTY27_fmKn7S4.js"></script> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_2jDjItK5kn1HYGdOJItscmD-MBTGKiaxNmzYli64GOs.js"></script> <script type="text/javascript"> <![CDATA[//><!]]> </script> <script type="text/javascript"> <![CDATA[//><!]]> </script> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_MrgubHtdOA1nVcjDTR4s-m0ya_aIvugR02VlGxCGGDw.js"></script> <script type="text/javascript" src="https://www.novusbio.com/sites/novusbio.com/files/js/js_sNIdssRhxhJxJxAR2Pduc4_PqOXIKZf2m8g4hyLSJ8s.js"></script> <script type="text/javascript"> <![CDATA[//><!]]> </script> <link rel="shortcut icon" type="image/ico" href="//images.novusbio.com/design/faviconNew.ico"/> <meta name="yandex-verification" content="e7c24419f013b549"/> </head> <body class="html not-front not-logged-in no-sidebars page-products page-products-atg5-antibody-nb110-53818" >  <noscript> <iframe src="https://www.googletagmanager.com/ns.html?id=GTM-52KXLL" height="0" width="0" style="display:none;visibility:hidden"></iframe> </noscript>  <div id="skip-link"> <a href="#main-content" class="element-invisible element-focusable">Skip to main content</a> </div> <noscript aria-hidden="true"><iframe src="https://www.googletagmanager.com/ns.html?id=GTM-52KXLL" height="0" width="0" style="display:none;visibility:hidden"></iframe></noscript>  <div class="region region-bt-brands-bar"> <div id="block-bt-brands-bar-bt-brands-bar" class="block block-bt-brands-bar"> <div class="content"> <div id="bt_brands_bar"> <div class="container_16"> <div style="margin-left: 0px; margin-right: 0px; width:960px;zoom:1;word-wrap:break-word;"> <ul> <li><a href="https://www.bio-techne.com" rel="noopener noreferrer" target="_blank" aria-label="Bio-Techne"><div class="brandsSprite_biotechne"></div></a></li><li><a href="https://www.rndsystems.com" rel="noopener noreferrer" target="_blank" aria-label="R&D Systems"><div class="brandsSprite_rndsystems"></div></a></li><li class="active"><div class="brandsSprite_novusbio_color"></div></li><li><a href="https://www.tocris.com" rel="noopener noreferrer" target="_blank" aria-label="Tocris Bioscience"><div class="brandsSprite_tocris"></div></a></li><li><a href="https://www.bio-techne.com/brands/proteinsimple" rel="noopener noreferrer" target="_blank" aria-label="ProteinSimple"><div class="brandsSprite_proteinsimple"></div></a></li><li><a href="https://www.biospacific.com" rel="noopener noreferrer" target="_blank" aria-label="BiosPacific"><div class="brandsSprite_biospacific"></div></a></li><li><a href="https://www.cliniqa.com" rel="noopener noreferrer" target="_blank" aria-label="Cliniqa"><div class="brandsSprite_cliniqa"></div></a></li><li><a href="https://acdbio.com/ " rel="noopener noreferrer" target="_blank" aria-label="ACD"><div class="brandsSprite_acd"></div></a></li><li><a href="https://www.rndheme.com" rel="noopener noreferrer" target="_blank" aria-label="R&D Heme"><div class="brandsSprite_rndheme"></div></a></li> </ul> </div> </div> </div> </div> </div> <div id="block-et-cookie-policy-cookie-policy" class="block block-et-cookie-policy"> <div class="content"> <div></div> </div> </div> </div> <div class="overlay"></div> <div id="header"> <div class="bluewide_wrapper"> <div class="container_16"> <div class="grid_16"> <div id="top_bar"> <div class="region region-top-left-bar"> <div id="block-et-internationalization-novus-dist-short" class="block block-et-internationalization"> <div class="content"> <div id="top_bar_support_info"><noscript>Support: 1-888-506-6887</noscript></div> </div> </div> </div> <div id="top_bar_novus"> <div class="region region-top-right-bar"> <div id="block-et-quickorder-et-quickorder" class="block block-et-quickorder"> <div class="content"> <div id="quickOrder_topbar">Quick Order  <div class="fp_quickorder_arrow"></div> <div id="quickOrder_dropdown"> <p class="quickOrder_disabled">Quick order is disabled in your country. Please contact Customer Service if you have questions.</p></div> </div> </div> </div> <div id="block-et-internationalization-country-dropdown" class="block block-et-internationalization"> <div class="content"> <div id="internationalization_country_select"> <div class="internationalization_drop"></div> </div> </div> </div> </div> </div> </div> </div> </div> </div> <div id="content-wrapper" class="container_16"> <div class="grid_4"> <div id="logo"> <a href="/"><img src="//images.novusbio.com/design/novus_color_RGB_small.png" alt="Novus Biologicals Logo"></a> </div> </div> <div class="grid_12"> <div class="region region-login-area"> <div id="block-et-internationalization-sign-in" class="block block-et-internationalization"> <div class="content"> <div id="sign_in"><a href="/user/login" rel="nofollow"><noscript>Account</noscript></a></div> </div> </div> </div> <div class="search_form_container"> <div class="region region-search-bar"> <div id="block-et-searchbar-et-searchbar-bar" class="block block-et-searchbar"> <div class="content"> <div class="et_searchbar_wrapper"> <form name="et_searchbar" method="GET" action="/search" class="search_form"><div class="et_searchbar"> <input autocomplete="off" name="keywords" type="text" class="et_searchbar_wide et_searchbar_default" value="" placeholder="Enter Catalog #, Protein, or Keywords." data-default="" /><input type="submit" value="search" class="fp_mag_glass_wideSearch"></div></form><div class="et_spinner_small et_searchbar_spinner"></div> </div> </div> </div> </div>  </div> </div> <div class="clear"></div> </div> </div> <div class="bluewide_wrapper"> <div class="container_16"> <div class="grid_16" id="main_menu"> <div class="region region-header"> <div id="block-et-main-menu-et-main-menu-block" class="block block-et-main-menu"> <div class="content"> <div id="main_menu_wrapper"> <ul id="small_menu"> <li class="main_menu_parent"> <div class="main_menu_submenu"><div id="menu_products" class="menu_drop"> <div class="mm_menu"><ul class="menu"><li class="first expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first leaf"><a href="/support/sars-cov-research-resources" title="">COVID-19 Research Tools</a></li> <li class="expanded"><a href="/productsearch/novus" title="">Antibodies</a><ul class="menu"><li class="first expanded"><a href="/products/primary-antibodies" title="">Primary Antibodies</a><ul class="menu"><li class="first leaf"><a href="/conjugatedantibodies.html" title="">Conjugated Antibodies</a></li> <li class="leaf"><a href="/samplesize" title="">Sample Size Antibodies</a></li> <li class="leaf"><a href="/products/crispr-cas9-genetic-knockout-antibody-validation-reproducibility" title="">KO Validated Antibodies</a></li> <li class="leaf"><a href="https://www.novusbio.com/recombinant-monoclonals" title="">Recombinant Antibodies</a></li> <li class="leaf"><a href="/product-type/antibody-packs" title="">Antibody Sampler Packs</a></li> <li class="last leaf"><a href="/product-type/antibody-pairs" title="">Antibody Pairs</a></li> </ul></li> <li class="leaf"><a href="/support/GeneralSecondaryAntibodies" title="">Secondary Antibodies</a></li> <li class="last leaf"><a href="/products/isotype-controls" title="">Isotype Control Antibodies</a></li> </ul></li> <li class="expanded"><a href="/product-type/peptides-and-proteins" title="">Proteins and Peptides</a><ul class="menu"><li class="first leaf"><a href="/products/peptides-and-proteins" title="">Peptides & Proteins</a></li> <li class="leaf"><a href="/support/blocking-with-immunizing-peptide" title="">Blocking Peptides</a></li> <li class="last leaf"><a href="/product-type/peptides-and-proteins?applications=Bioactivity" title="">Biologically Active Proteins</a></li> </ul></li> <li class="last expanded"><a href="https://www.novusbio.com/product-type/lysates" title="">Lysates and Cell Lines</a><ul class="menu"><li class="first leaf"><a href="/product-type/lysates" title="">Lysates</a></li> <li class="last leaf"><a href="/research-areas/stem-cells/stem-cell-lines.html" title="">Stem Cell Lines</a></li> </ul></li> </ul></li> <li class="last expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first expanded"><a href="/product-type/kits" title="">Kits</a><ul class="menu"><li class="first leaf"><a href="/Lightning-Link%20Antibody%20Labeling%20Kits" title="">Antibody Labeling Kits</a></li> <li class="leaf"><a href="/product-type/kits?category=Kits&kit_type=ChIP%20Kit" title="">ChIP Kits</a></li> <li class="leaf"><a href="/products/elisa-kits" title="">ELISA Kits</a></li> <li class="last leaf"><a href="/product-type/kits?category=Kits&kit_type=Flow%20Cytometry%20Kit" title="">Flow Cytometry Kits</a></li> </ul></li> <li class="expanded"><a href="/product-type/support-products?category=Support%20Products&applications=Ligand%20Activation" title="">Activators and Inhibitors</a><ul class="menu"><li class="first leaf"><a href="/product-type/inhibitors" title="">Inhibitors</a></li> <li class="last leaf"><a href="/product-type/support-products?category=Support%20Products&applications=Ligand%20Activation" title="">Activators</a></li> </ul></li> <li class="expanded"><a href="/product-type/support-products" title="">Support Products</a><ul class="menu"><li class="first leaf"><a href="/research-topics/cell-biology/exosome-isolation-and-detection" title="Exosome Isolation and Detection Tools">Exosome Isolation</a></li> <li class="leaf"><a href="/products/flow-cytometry-quality-control-beads" title="Flow Cytometry Calibration, Compensation and Cell Counting Beads">Flow Cytometry Beads</a></li> <li class="leaf"><a href="/control-slides" title="">IHC Tissue Slides</a></li> <li class="leaf"><a href="/tissue-microarrays" title="">IHC Microarrays</a></li> <li class="leaf"><a href="/search?keywords=runblue" title="">Western Blot Gels & Buffers</a></li> <li class="leaf"><a href="/product-type/wb-membranes" title="">Western Blot Membranes</a></li> <li class="last leaf"><a href="/product-type/support-products" title="">All Support Products</a></li> </ul></li> <li class="last leaf"><a href="/support/bulk-and-custom.html" title="">Bulk and Custom</a></li> </ul></li> </ul><div class="clear"></div></div> </div></div> <div class="menu_header"> <a href="/search?keywords=novus" class="main_menu_parent_link">Products</a> </div> </li> <li class="main_menu_parent"> <div class="main_menu_submenu"><div id="menu_support" class="menu_drop"> <div class="mm_menu"><a href="/support/support-by-application.html"><div class="link_button link_protocols_button">Our Protocols</div></a><ul class="menu"><li class="first expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first last expanded"><a href="/support.html" title="">Resources</a><ul class="menu"><li class="first leaf"><a href="/support/support-by-application.html" title="">Protocols</a></li> <li class="leaf"><a href="/support/video-protocols" title="">Video Protocols</a></li> <li class="leaf"><a href="/support/troubleshooting" title="">Troubleshooting Guides</a></li> <li class="leaf"><a href="/mailing-list" title="">Posters and Literature</a></li> <li class="leaf"><a href="/support/handbooks-and-guides" title="">Handbooks and Guides</a></li> <li class="leaf"><a href="/resources/calculators" title="">Calculators</a></li> <li class="leaf"><a href="/support/faqs.html" title="">FAQs</a></li> <li class="leaf"><a href="/antibody-news" title="">Blogs</a></li> <li class="leaf"><a href="/all-diseases.html" title="">Diseases</a></li> <li class="leaf"><a href="/whitepapers.html" title="">Whitepapers</a></li> <li class="leaf"><a href="/webform/help-finding-antibodies" title="">Antibody Concierge</a></li> <li class="last leaf"><a href="/webinar" title="">Webinars</a></li> </ul></li> </ul></li> <li class="last expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first expanded"><a href="/research-tools.html" title="">Tools</a><ul class="menu"><li class="first leaf"><a href="/spectraviewer" title="">Spectra Viewer</a></li> <li class="last leaf"><a href="/novusknowsflow.html" title="">Flow Cytometry Panel Builder</a></li> </ul></li> <li class="expanded"><a href="/application" title="">Application</a><ul class="menu"><li class="first leaf"><a href="/application/elisa" title="">ELISA</a></li> <li class="leaf"><a href="/application/flow-cytometry" title="">Flow Cytometry</a></li> <li class="leaf"><a href="https://www.novusbio.com/products/antibodies-cytof" title="">Mass Cytometry (CyTOF)</a></li> <li class="leaf"><a href="/application/icc" title="">ICC</a></li> <li class="leaf"><a href="/application/ihc" title="">IHC</a></li> <li class="last leaf"><a href="/application/western-blotting" title="">Western Blotting</a></li> </ul></li> <li class="last expanded"><a href="/interviews" title="">Interviews</a><ul class="menu"><li class="first leaf"><a href="/faculty/faculty-interviews" title="">Faculty</a></li> <li class="last leaf"><a href="/postdoc/postdoc-interviews" title="">Postdoc</a></li> </ul></li> </ul></li> </ul><div class="clear"></div></div> </div></div> <div class="menu_header"> <a href="/support.html" class="main_menu_parent_link">Resources</a> </div> </li> <li class="main_menu_parent"> <div class="main_menu_submenu"><div id="menu_ra" class="menu_drop"> <div class="mm_menu"><a href="/pathwaypages.html"><div class="link_button">View Pathways</div></a><ul class="menu"><li class="first expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first last expanded"><a href="/research-areas.html" title="">By Research Area</a><ul class="menu"><li class="first leaf"><a href="/research-areas/apoptosis" title="">Apoptosis</a></li> <li class="leaf"><a href="/research-areas/autophagy" title="">Autophagy</a></li> <li class="leaf"><a href="/research-areas/cancer" title="">Cancer</a></li> <li class="leaf"><a href="/research-areas/cell-biology" title="">Cell Biology</a></li> <li class="leaf"><a href="/research-areas/cellular-markers" title="">Cellular Markers</a></li> <li class="leaf"><a href="/research-areas/epigenetics" title="">Epigenetics</a></li> <li class="leaf"><a href="/research-areas/epitope-tags" title="">Epitope Tags</a></li> <li class="leaf"><a href="/research-areas/cell-biology/Exosome-research-tools" title="Exosome Research Tools">Exosomes Research</a></li> <li class="leaf"><a href="/research-areas/hypoxia" title="">Hypoxia</a></li> <li class="leaf"><a href="/research-areas/immunology" title="">Immunology</a></li> <li class="leaf"><a href="/research-areas/microbiology" title="">Microbiology</a></li> <li class="leaf"><a href="/research-areas/neuroscience" title="">Neuroscience</a></li> <li class="last leaf"><a href="/research-areas/stem-cells" title="">Stem Cells</a></li> </ul></li> </ul></li> <li class="last expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first last expanded"><a href="/pathwaypages.html" title="">By Pathway</a><ul class="menu"><li class="first leaf"><a href="/akt-signaling-pathway" title="">AKT </a></li> <li class="leaf"><a href="/apoptosis-pathway" title="">Apoptosis</a></li> <li class="leaf"><a href="/autophagy-pathway" title="">Autophagy</a></li> <li class="leaf"><a href="/mapkerkpathway.html" title="">ERK1/2/5 Pathway</a></li> <li class="leaf"><a href="/hedgehogpathway.html" title="">Hedgehog</a></li> <li class="leaf"><a href="/hippo-pathway.html" title="">Hippo</a></li> <li class="leaf"><a href="/jnk-signaling-pathway" title="">JNK Pathway</a></li> <li class="leaf"><a href="/mtor-pathway" title="">mTOR</a></li> <li class="leaf"><a href="/necroptosis-pathway" title="">Necroptosis</a></li> <li class="leaf"><a href="/nfkbpathway" title="">NFKB Signaling</a></li> <li class="leaf"><a href="/p38mapkpathway.html" title="">p38 Signaling</a></li> <li class="leaf"><a href="/tgfbetapathway" title="">TGF Beta</a></li> <li class="last leaf"><a href="/toll-like-receptors" title="">TLR</a></li> </ul></li> </ul></li> </ul><div class="clear"></div></div> </div></div> <div class="menu_header"> <a href="/research-areas.html" class="main_menu_parent_link">Research Areas</a> </div> </li> <li class="main_menu_parent"> <div class="main_menu_submenu"><div id="menu_promotions" class="menu_drop"> <div class="mm_menu"><a href="/about/rewards.html"><div class="link_button">Get Rewards</div></a><ul class="menu"><li class="first last expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first last expanded"><a href="/programs.html" title="">Customer Care</a><ul class="menu"><li class="first leaf"><a href="/guarantee" title="">100% Guarantee</a></li> <li class="leaf"><a href="/support/innovators-reward.html" title="">Risk Free Testing</a></li> <li class="leaf"><a href="/about/rewards.html" title="">Novus Rewards Program</a></li> <li class="leaf"><a href="/publications" title="">Publication Rewards Program</a></li> <li class="leaf"><a href="/newlab.html" title="">New Lab Discount</a></li> <li class="leaf"><a href="/scholarship-program.html" title="">Scholarship</a></li> <li class="leaf"><a href="/travelgrant.html" title="">Travel Grants</a></li> <li class="last leaf"><a href="/products/promotions" title="">Promotions</a></li> </ul></li> </ul></li> </ul><div class="clear"></div></div> </div></div> <div class="menu_header"> <a href="/programs.html" class="main_menu_parent_link">Customer Care</a> </div> </li> <li class="main_menu_parent"> <div class="main_menu_submenu"><div id="menu_about" class="menu_drop"> <div class="mm_menu"><a href="/about/careers-at-novus.html"><div class="link_button">Novus Careers</div></a><ul class="menu"><li class="first last expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first last expanded"><a href="/about.html" title="">About us</a><ul class="menu"><li class="first leaf"><a href="https://www.bio-techne.com/about/careers" title="">Careers</a></li> <li class="leaf"><a href="/about/collaborations.html" title="">Collaborations</a></li> <li class="leaf"><a href="/about/events" title="Events">Events</a></li> <li class="leaf"><a href="/about/novus-story.html" title="">Novus Story</a></li> <li class="leaf"><a href="/about/novus-team.html" title="">Our Team</a></li> <li class="leaf"><a href="/about/novus-philanthropy.html" title="">Philanthropy</a></li> <li class="leaf"><a href="/about/press-release.html" title="">Press Releases</a></li> <li class="last leaf"><a href="/why-choose-novus.html" title="">Why choose Novus</a></li> </ul></li> </ul></li> </ul><div class="clear"></div></div> </div></div> <div class="menu_header"> <a href="/about.html" class="main_menu_parent_link">About Us</a> </div> </li> <li class="main_menu_parent"> <div class="main_menu_submenu"><div id="menu_contact" class="menu_drop"> <div class="mm_menu"><ul class="menu"><li class="first last expanded"><span title="" class="separator"><hr></span><ul class="menu"><li class="first last expanded"><a href="/about/contact-us.html" title="">Contact Us</a><ul class="menu"><li class="first leaf"><a href="/about/contact-us.html" title="">Customer Service</a></li> <li class="leaf"><a href="/novus-distributors/list" title="">Distributors</a></li> <li class="last leaf"><a href="/support/technical-support.html" title="">Technical Support</a></li> </ul></li> </ul></li> </ul><div class="clear"></div></div> </div></div> <div class="menu_header"> <a href="/about/contact-us.html" class="main_menu_parent_link">Contact</a> </div> </li> </ul> </div> </div> </div> </div> </div> </div> </div> <div id="caspertesting"> <div class="container_16"> <div id="page-breadcrumb" class="grid_16"> <div class="breadcrumb"><a href="/">Home</a> » <a href="/common-name/atg5">ATG5</a> » <a href="/primary-antibodies/atg5">ATG5 Antibodies</a> » ATG5 Antibody - BSA Free</div> </div> <div class="main grid_16">  <div class="region region-banners"> <div id="block-block-26" class="block block-block"> <div class="content"> <div class="container_12"><a href="https://www.bio-techne.com/account/novus-bio-techne/login?_ga=2.17257593.151271452<br />
5.1724696046-473375462.1712005244" style="margin: 0 10px;" target="_blank"><img alt="Novus Biologicals products are now on bio-techne.com" src="https://images.novusbio.com/design/ready-to-buy-novus-products-login.png" style="height:120px; width:940px" /></a></div> </div> </div> </div> <h1>ATG5 Antibody - BSA Free</h1> </div> <div class="clear"></div> <div> <div class="region region-content"> <div id="block-et-messages-et-messages-block" class="block block-et-messages"> <div class="content"> <span></span> </div> </div> <div id="block-system-main" class="block block-system"> <div class="content"> <div class="grid_16"><div class="ds_info float_left"><a href="#PublicationSection"><div class="sprite_pubBook_large"></div></a> <a href="#PublicationSection" class="bottom2"><span class="ctr">(285 Publications)</span></a></div><div class="ds_info float_left"><a href="#ReviewsSection"><div class="dsSprite_stars4"></div></a> <a href="#ReviewsSection" class="bottom0"><span class="ctr">(8 Reviews)</span></a></div><div class="ds_info float_left"><a href="/proteinsimple" title="Learn more about Simple Western"><div class="sprite_swBadge simple"> </div></a></div><div class="ds_info float_left"> <a href="/common-name/atg5"><div class="sprite_allRelated"></div></a> <a href="/common-name/atg5" class="bottom4"><span class="ctr">See All Related</span></a> </div><div class="ds_info float_left"><a href="/reviews/NB110-53818"><div class="dsSprite_submitreview"></div></a> <a href="/reviews/NB110-53818" class="bottom4"><span class="ctr">Submit a Review</span></a></div></div></div><div class="modalWrapper" style="display:none;"> <h2>Species Glossary</h2> <hr class="customhr"/> <img src="//images.novusbio.com/design/bunny.gif" alt="Species Glossary Rabbit" style="float: right;"> <table class="modalTable"> <tr> <td>At</td> <td>=</td> <td>A. thaliana</td> <td>SyHa</td> <td>=</td> <td>Golden Syrian Hamster</td> </tr> <tr> <td>All</td> <td>=</td> <td>All Species</td> <td>Ha</td> <td>=</td> <td>Hamster</td> </tr> <tr> <td>An</td> <td>=</td> <td>Animal</td> <td>Hu</td> <td>=</td> <td>Human</td> </tr> <tr> <td>ArHa</td> <td>=</td> <td>Armenian Hamster</td> <td>I</td> <td>=</td> <td>Insect</td> </tr> <tr> <td>Av</td> <td>=</td> <td>Avian</td> <td>Ll</td> <td>=</td> <td>Llama</td> </tr> <tr> <td>Bb</td> <td>=</td> <td>Baboon</td> <td>Ma</td> <td>=</td> <td>Mammal</td> </tr> <tr> <td>Ba</td> <td>=</td> <td>Bacteria</td> <td>Mk</td> <td>=</td> <td>Monkey</td> </tr> <tr> <td>Bv</td> <td>=</td> <td>Bovine</td> <td>Mu</td> <td>=</td> <td>Mouse</td> </tr> <tr> <td>Ca</td> <td>=</td> <td>Canine</td> <td>Multi</td> <td>=</td> <td>Multi-species</td> </tr> <tr> <td>Ce</td> <td>=</td> <td>C. Elegans</td> <td>NA</td> <td>=</td> <td>Non-species specific</td> </tr> <tr> <td>Ch</td> <td>=</td> <td>Chicken</td> <td>Or</td> <td>=</td> <td>Orangutan</td> </tr> <tr> <td>ChHa</td> <td>=</td> <td>Chinese Hamster</td> <td>Pl</td> <td>=</td> <td>Plant</td> </tr> <tr> <td>Cm</td> <td>=</td> <td>Cynomolgus Monkey</td> <td>Pm</td> <td>=</td> <td>Primate</td> </tr> <tr> <td>Do</td> <td>=</td> <td>Donkey</td> <td>Po</td> <td>=</td> <td>Porcine</td> </tr> <tr> <td>Dr</td> <td>=</td> <td>Drosophilia</td> <td>Rb</td> <td>=</td> <td>Rabbit</td> </tr> <tr> <td>Ec</td> <td>=</td> <td>E. Coli</td> <td>Rt</td> <td>=</td> <td>Rat</td> </tr> <tr> <td>Eq</td> <td>=</td> <td>Equine</td> <td>RM</td> <td>=</td> <td>Rhesus Macaque</td> </tr> <tr> <td>Fe</td> <td>=</td> <td>Feline</td> <td>Sh</td> <td>=</td> <td>Sheep</td> </tr> <tr> <td>Ft</td> <td>=</td> <td>Ferret</td> <td>Vb</td> <td>=</td> <td>Vertebrate</td> </tr> <tr> <td>Fi</td> <td>=</td> <td>Fish</td> <td>Vi</td> <td>=</td> <td>Virus</td> </tr> <tr> <td>Fu</td> <td>=</td> <td>Fungi</td> <td>Xp</td> <td>=</td> <td>Xenopus</td> </tr> <tr> <td>Ge</td> <td>=</td> <td>Gerbil</td> <td>Ye</td> <td>=</td> <td>Yeast</td> </tr> <tr> <td>GP</td> <td>=</td> <td>Guinea Pig</td> <td>Ze</td> <td>=</td> <td>Zebrafish</td> </tr> <tr> <td>Gt</td> <td>=</td> <td>Goat</td> </tr> </table> <div style="text-align: center;margin-left:25px;margin-right:25px;"> <p>Note: Mouseover a species abbreviation on the product page to display the fullname.</p> </div> </div> </div><div class="clear"></div><div class="grid_10 pos_relative"><div class="ds_blue_border equaltop"><div class="imagesleft equaltop"><h2 class="blueHead">Images</h2> <div class="midBlue"> </div><div class="images"><div id="ss_prev_top" class="cycle-pager"><div class="pager_left_on"></div></div><div class="cycle-slideshow slideshows" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-top" data-cycle-prev="#ss_prev_top" data-cycle-next="#ss_next_top" data-cycle-caption="#image-caption" data-cycle-caption-template="Image {{slideNum}} of {{slideCount}}" data-cycle-slides=".big_thumb_container" data-cycle-carousel-visible="3" id="images_cycle" > <div class="sub_image_wrapper"><div id="cycle-circle-pager-top" class="cycle-circle-pager"></div><div id="image-caption"></div> <a class="enlargeTop">(<div class="dsSprite_magGlass"></div> Enlarge)</a></div> <div class="big_thumb_container"> <div class="image_wrapper"> <a href="//images.novusbio.com/fullsize/nb110-53818_rabbit-polyclonal-atg5-antibody-30820241044550.jpg" class="top_images" rel="gallery" title="Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - ERK phosphorylation in Atg5-/-cells depends on nutrient availability. Serum-deprived Atg5-/- MEFs display decreased ERK and p90RSK phosphorylation. Immunoblots for the indicated proteins in total lysates from 2 h serum-deprived WT and Atg5-/- MEFs. The bars represent mean+/-s.e.m. *P 0.9999), as compared to CQ (50 uM) only, a dose that did not completely inhibit autophagy. Data represent mean +- SEM. (H) N27 cells were treated with 62.5 or 125 uM of MnCl2 for 24h, then incubated with LysoSensor Yellow/Blue. The ratio of acidic (yellow) vs. neutral (blue) pH of lysosomes were quantified using a plate reader. (I) N27 cells were treated with Mn 125 uM, CQ50 uM or both for 24h, followed by immunoblotting for Atg5, a marker for autophagosomes, using Jess (ProteinSimple, Inc.) (J) Total protein per capillary was used as loading control to normalize the levels of Atg5. Mn did not further increase the accumulation of autophagosomes when combined with CQ versus CQ alone (P = 0.9998). All data represent mean +- SEM (n = 3-4 independent experiments with approximately 30 cells per experiment for E and G) and groups were compared by using Kruskal-Wallis ANOVA test with Dunn's post-hoc test; ns: non-significant. Image collected and cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/24957904), licensed under a CC-BY license. Not internally tested by R&D Systems. Image collected and cropped by CiteAb from the following publication (//molecularneurodegeneration.biomedcentral.com/articles/10.1186/s13024-024-00708-w ), licensed under a CC-BY license. Not internally tested by Novus Biologicals." > <img src="//images.novusbio.com/images/nb110-53818_rabbit-polyclonal-atg5-antibody-30820241044550.jpg" class="big_thumb" alt="Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - ERK phosphorylation in Atg5-/-cells depends on nutrient availability. Serum-deprived Atg5-/- MEFs display decreased ERK and p90RSK phosphorylation. Immunoblots for the indicated proteins in total lysates from 2 h serum-deprived WT and Atg5-/- MEFs. The bars represent mean+/-s.e.m. *P 0.9999), as compared to CQ (50 uM) only, a dose that did not completely inhibit autophagy. Data represent mean +- SEM. (H) N27 cells were treated with 62.5 or 125 uM of MnCl2 for 24h, then incubated with LysoSensor Yellow/Blue. The ratio of acidic (yellow) vs. neutral (blue) pH of lysosomes were quantified using a plate reader. (I) N27 cells were treated with Mn 125 uM, CQ50 uM or both for 24h, followed by immunoblotting for Atg5, a marker for autophagosomes, using Jess (ProteinSimple, Inc.) (J) Total protein per capillary was used as loading control to normalize the levels of Atg5. Mn did not further increase the accumulation of autophagosomes when combined with CQ versus CQ alone (P = 0.9998). All data represent mean +- SEM (n = 3-4 independent experiments with approximately 30 cells per experiment for E and G) and groups were compared by using Kruskal-Wallis ANOVA test with Dunn's post-hoc test; ns: non-significant. Image collected and cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/24957904), licensed under a CC-BY license. Not internally tested by R&D Systems. Image collected and cropped by CiteAb from the following publication (//molecularneurodegeneration.biomedcentral.com/articles/10.1186/s13024-024-00708-w ), licensed under a CC-BY license. Not internally tested by Novus Biologicals." title="Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - ERK phosphorylation in Atg5-/-cells depends on nutrient availability. Serum-deprived Atg5-/- MEFs display decreased ERK and p90RSK phosphorylation. Immunoblots for the indicated proteins in total lysates from 2 h serum-deprived WT and Atg5-/- MEFs. The bars represent mean+/-s.e.m. *P 0.9999), as compared to CQ (50 uM) only, a dose that did not completely inhibit autophagy. Data represent mean +- SEM. (H) N27 cells were treated with 62.5 or 125 uM of MnCl2 for 24h, then incubated with LysoSensor Yellow/Blue. The ratio of acidic (yellow) vs. neutral (blue) pH of lysosomes were quantified using a plate reader. (I) N27 cells were treated with Mn 125 uM, CQ50 uM or both for 24h, followed by immunoblotting for Atg5, a marker for autophagosomes, using Jess (ProteinSimple, Inc.) (J) Total protein per capillary was used as loading control to normalize the levels of Atg5. Mn did not further increase the accumulation of autophagosomes when combined with CQ versus CQ alone (P = 0.9998). All data represent mean +- SEM (n = 3-4 independent experiments with approximately 30 cells per experiment for E and G) and groups were compared by using Kruskal-Wallis ANOVA test with Dunn's post-hoc test; ns: non-significant. Image collected and cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/24957904), licensed under a CC-BY license. Not internally tested by R&D Systems. Image collected and cropped by CiteAb from the following publication (//molecularneurodegeneration.biomedcentral.com/articles/10.1186/s13024-024-00708-w ), licensed under a CC-BY license. Not internally tested by Novus Biologicals." /> </a> </div> <div class="alt-caption padding_left5" >Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - ERK phosphorylation in Atg5-/-cells depends on nutrient availability. Serum-deprived Atg5-/- MEFs display decreased ERK and p90RSK phosphorylation. Immunoblots for<a class="openGallery" href="#" data-picnum="0"> ...read more</a></div> </div> <div class="big_thumb_container"> <div class="image_wrapper"> <a href="//images.novusbio.com/fullsize/nb110-53818_rabbit-polyclonal-atg5-antibody-31020241624916.jpg" class="top_images" rel="gallery" title="ATG5 & ATG7 enhanced autophagy & inhibited ER stress in chondrocyte. a Western blotting analysis of LC3, P62, ATG5, ATG7 & ATG5-ATG12 expression after infected with Ad-ATG5, Ad-ATG7 & Ad-ATG5 + Ad-ATG7 in the C28I2 cells. beta -actin is served as an internal control. b Qualitative analysis of ATG5, ATG7, ATG5-ATG12, LC3 & P62. The values were normalized to beta -actin. c C28I2 cells were double stained with LC3 (red) & DAPI (blue) & visualized by confocal microscopy (400X) after treated with Rapamycine, Ad-ATG5, Ad-ATG7 & Ad-ATG5 + Ad-ATG7 24 h. *P UAS‐Atg5‐RNAi flies (Atg5‐RNAi). Atg5 was reduced in Atg5‐RNAi flies (n = 6, one‐way ANOVA, *P < 0.05 vs. control). (D, E) Downregulation of autophagy abolished the beta ‐GPA‐mediated lifespan extension (n = 200, P < 0.0001 vs. control, log‐rank test). For all Western blots, relative band intensity was estimated using IMAGEJ. Data are shown as mean ± SEM. Image collected & cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/26120775), licensed under a CC-BY license. Not internally tested by Novus Biologicals." > <img src="//images.novusbio.com/images/nb110-53818_rabbit-polyclonal-atg5-antibody-31020241624916.jpg" loading="lazy" style="display:none;" class="big_thumb" alt="ATG5 & ATG7 enhanced autophagy & inhibited ER stress in chondrocyte. a Western blotting analysis of LC3, P62, ATG5, ATG7 & ATG5-ATG12 expression after infected with Ad-ATG5, Ad-ATG7 & Ad-ATG5 + Ad-ATG7 in the C28I2 cells. beta -actin is served as an internal control. b Qualitative analysis of ATG5, ATG7, ATG5-ATG12, LC3 & P62. The values were normalized to beta -actin. c C28I2 cells were double stained with LC3 (red) & DAPI (blue) & visualized by confocal microscopy (400X) after treated with Rapamycine, Ad-ATG5, Ad-ATG7 & Ad-ATG5 + Ad-ATG7 24 h. *P UAS‐Atg5‐RNAi flies (Atg5‐RNAi). Atg5 was reduced in Atg5‐RNAi flies (n = 6, one‐way ANOVA, *P < 0.05 vs. control). (D, E) Downregulation of autophagy abolished the beta ‐GPA‐mediated lifespan extension (n = 200, P < 0.0001 vs. control, log‐rank test). For all Western blots, relative band intensity was estimated using IMAGEJ. Data are shown as mean ± SEM. Image collected & cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/26120775), licensed under a CC-BY license. Not internally tested by Novus Biologicals." title="ATG5 & ATG7 enhanced autophagy & inhibited ER stress in chondrocyte. a Western blotting analysis of LC3, P62, ATG5, ATG7 & ATG5-ATG12 expression after infected with Ad-ATG5, Ad-ATG7 & Ad-ATG5 + Ad-ATG7 in the C28I2 cells. beta -actin is served as an internal control. b Qualitative analysis of ATG5, ATG7, ATG5-ATG12, LC3 & P62. The values were normalized to beta -actin. c C28I2 cells were double stained with LC3 (red) & DAPI (blue) & visualized by confocal microscopy (400X) after treated with Rapamycine, Ad-ATG5, Ad-ATG7 & Ad-ATG5 + Ad-ATG7 24 h. *P UAS‐Atg5‐RNAi flies (Atg5‐RNAi). Atg5 was reduced in Atg5‐RNAi flies (n = 6, one‐way ANOVA, *P < 0.05 vs. control). (D, E) Downregulation of autophagy abolished the beta ‐GPA‐mediated lifespan extension (n = 200, P < 0.0001 vs. control, log‐rank test). For all Western blots, relative band intensity was estimated using IMAGEJ. Data are shown as mean ± SEM. Image collected & cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/26120775), licensed under a CC-BY license. Not internally tested by Novus Biologicals." /> </a> </div> <div class="alt-caption padding_left5" >ATG5 & ATG7 enhanced autophagy & inhibited ER stress in chondrocyte. a Western blotting analysis of LC3, P62, ATG5, ATG7 & ATG5-ATG12 expression after infected with Ad-ATG5, Ad-ATG7 & Ad-ATG5 + Ad-ATG7 in the C28I2<a class="openGallery" href="#" data-picnum="1"> ...read more</a></div> </div> <div class="big_thumb_container"> <div class="image_wrapper"> <a href="//images.novusbio.com/fullsize/nb110-53818_rabbit-polyclonal-atg5-antibody-3102024162495.jpg" class="top_images" rel="gallery" title="Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - Differences in neuronal autophagy & dendrite varicosity following HIV-1 Tat protein & morphine treatment. (A) Representative images of neurons transfected with a fluorescent reporter plasmid to monitor autophagic flux at 8 h following the indicated treatments. GFP (green) & GFP + mRFP (yellow) fluorescence are observed prior to the fusion of autophagosomes with lysosomes whereas only mRFP (red) fluorescence is present in post-fusion autolysosomes. DIC, differential interference contrast microscopy image. DAPI (blue) staining indicates cell nuclei. (B) Quantification of autolysosomes (red puncta) from (A). F(3,13) = 8.756, p = 0.0019; ∗p < 0.05 when compared to all other groups. (C) Western blotting analysis of the indicated autophagy associated protein levels at 24 h following the indicated treatments. GAPDH was used as a loading control. Blots are representative of three independent experiments. (D) Quantification of dendrite beading from (A). F(3,77) = 6.429, p = 0.0006; ∗p < 0.05 when compared to control cells. Error bars show the SEM. Image collected & cropped by CiteAb from the following publication (//journal.frontiersin.org/Article/10.3389/fmicb.2015.00653/abstract), licensed under a CC-BY license. Not internally tested by Novus Biologicals." > <img src="//images.novusbio.com/images/nb110-53818_rabbit-polyclonal-atg5-antibody-3102024162495.jpg" loading="lazy" style="display:none;" class="big_thumb" alt="Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - Differences in neuronal autophagy & dendrite varicosity following HIV-1 Tat protein & morphine treatment. (A) Representative images of neurons transfected with a fluorescent reporter plasmid to monitor autophagic flux at 8 h following the indicated treatments. GFP (green) & GFP + mRFP (yellow) fluorescence are observed prior to the fusion of autophagosomes with lysosomes whereas only mRFP (red) fluorescence is present in post-fusion autolysosomes. DIC, differential interference contrast microscopy image. DAPI (blue) staining indicates cell nuclei. (B) Quantification of autolysosomes (red puncta) from (A). F(3,13) = 8.756, p = 0.0019; ∗p < 0.05 when compared to all other groups. (C) Western blotting analysis of the indicated autophagy associated protein levels at 24 h following the indicated treatments. GAPDH was used as a loading control. Blots are representative of three independent experiments. (D) Quantification of dendrite beading from (A). F(3,77) = 6.429, p = 0.0006; ∗p < 0.05 when compared to control cells. Error bars show the SEM. Image collected & cropped by CiteAb from the following publication (//journal.frontiersin.org/Article/10.3389/fmicb.2015.00653/abstract), licensed under a CC-BY license. Not internally tested by Novus Biologicals." title="Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - Differences in neuronal autophagy & dendrite varicosity following HIV-1 Tat protein & morphine treatment. (A) Representative images of neurons transfected with a fluorescent reporter plasmid to monitor autophagic flux at 8 h following the indicated treatments. GFP (green) & GFP + mRFP (yellow) fluorescence are observed prior to the fusion of autophagosomes with lysosomes whereas only mRFP (red) fluorescence is present in post-fusion autolysosomes. DIC, differential interference contrast microscopy image. DAPI (blue) staining indicates cell nuclei. (B) Quantification of autolysosomes (red puncta) from (A). F(3,13) = 8.756, p = 0.0019; ∗p < 0.05 when compared to all other groups. (C) Western blotting analysis of the indicated autophagy associated protein levels at 24 h following the indicated treatments. GAPDH was used as a loading control. Blots are representative of three independent experiments. (D) Quantification of dendrite beading from (A). F(3,77) = 6.429, p = 0.0006; ∗p < 0.05 when compared to control cells. Error bars show the SEM. Image collected & cropped by CiteAb from the following publication (//journal.frontiersin.org/Article/10.3389/fmicb.2015.00653/abstract), licensed under a CC-BY license. Not internally tested by Novus Biologicals." /> </a> </div> <div class="alt-caption padding_left5" >Western Blot: ATG5 Antibody - BSA Free [NB110-53818] - Differences in neuronal autophagy & dendrite varicosity following HIV-1 Tat protein & morphine treatment. (A) Representative images of neurons transfected with a<a class="openGallery" href="#" data-picnum="2"> ...read more</a></div> </div></div><div id="ss_next_top" class="cycle-pager"><div class="pager_right_on"></div></div></div></div><div class="productsright pos_relative equaltop"><h2 class="blueHead">Product Details</h2> <div class="midBlue">Summary</div><table class="ds_list"><tr class="lined"> <td><strong>Reactivity</strong></td> <td><span title='Human'>Hu</span>, <span title='Mouse'>Mu</span>, <span title='Rat'>Rt</span>, <span title='Porcine'>Po</span>, <span title='Alligator'>Al</span>, <span title='Bovine'>Bv</span>, <span title='Drosophila'>Dr</span>, <span title='Fish'>Fi</span>, <span title='Guinea Pig'>Gp</span>, <span title='Primate'>Pm</span>, <span title='Xenopus'>Xp</span>, <span title='Zebrafish'>Ze</span><span class="myModal">Species Glossary</span></td> </tr><tr class="lined"> <td><strong>Applications</strong></td> <td><span title='Western Blot'>WB</span>, <span title='Simple Western'>Simple Western</span>, <span title='ELISA'>ELISA</span>, <span title='Flow Cytometry'>Flow</span>, <span title='Functional Assay'>Func</span>, <span title='Immunocytochemistry/ Immunofluorescence'>ICC/IF</span>, <span title='Immunohistochemistry'>IHC</span>, <span title='Immunoprecipitation'>IP</span>, <span title='Microscopy'>MS</span>, <span title='Western Blot'>WB</span>, <span title='Knockdown Validated'>KD</span>, <span title='Knockout Validated'>KO</span></td> </tr><tr class="lined"> <td><strong>Clonality</strong></td> <td><div>Polyclonal</div></td> </tr><tr class="lined"> <td><strong>Host</strong></td> <td><div>Rabbit</div></td> </tr><tr class="lined"> <td><strong>Conjugate</strong></td> <td><div>Unconjugated</div></td> </tr><tr class="lined"> <td><strong>Format</strong></td> <td><div>BSA Free</div></td> </tr><tr class="lined"> <td><strong>Concentration</strong></td> <td><div>1.0 mg/ml</div></td> </tr></table></div> </div></div><div class="grid_6"><div></div> <div class="ds_blue_border equaltop"> <h2 class="blueHead_nopadding">Order Details</h2><ul class="ds_details"><li class="add-to-cart" data-type="full" data-prodname="" data-catnum="NB110-53818" data-catnums="NB110-53818,NB110-53818SS" data-disabled=''><noscript><form autocomplete="off" action="https://www.google.com/" method="post" id="et-add-multiple-to-cart-form" accept-charset="UTF-8"><div><table class="sticky-enabled"> <thead><tr><th>Size / Catalog#</th><th>Qty</th><th>Price</th> </tr></thead> <tbody> <tr class="odd"><td><div data-msg='' class="atc_catnum">NB110-53818SS</div><div class="atc_size" title="catalog # NB110-53818SS">0.025 ml</div></td><td><div class="form-item form-type-textfield form-item-rows-NB110-53818SS-quantity"> <input type="text" id="edit-rows-nb110-53818ss-quantity" name="rows[NB110-53818SS][quantity]" value="" size="60" maxlength="2" class="form-text" /> </div> </td><td><div class="price"> $219.00</div></td> </tr> <tr class="even"><td colspan="3" class="stock_row">8-10 Business Days</td> </tr> <tr class="odd"><td><div data-msg='' class="atc_catnum">NB110-53818</div><div class="atc_size" title="catalog # NB110-53818">0.1 ml</div></td><td><div class="form-item form-type-textfield form-item-rows-NB110-53818-quantity"> <input type="text" id="edit-rows-nb110-53818-quantity" name="rows[NB110-53818][quantity]" value="" size="60" maxlength="2" class="form-text" /> </div> </td><td><div class="price"> $449.00</div></td> </tr> <tr class="even"><td colspan="3" class="stock_row">In Stock: 7-9 Business Days</td> </tr> </tbody> </table> <input class="bulk_custom iframeBulkQuote form-submit" onClick="window.location.assign("https://www.novusbio.com/novus_quoterequest?mlt=ATG5+Antibody+-+BSA+Free&catnum=NB110-53818"); return false;" type="submit" id="edit-bulk-request" name="op" value="Bulk Request" /><input class="add_to_cart form-submit" type="submit" id="edit-add-multiple-to-cart" name="op" value="Add To Cart " /><input type="hidden" name="form_build_id" value="form-0uVshV8j9fXtl5DWFmDuPilt_0_4EWOk3Pk_0YWe7Y4" /> <input type="hidden" name="form_id" value="et_add_multiple_to_cart_form" /> </div></form></noscript></li></ul><div id="shipping" class="hidden"></td></tr></div><div class="conj_form_buttons"><div class="list_expand options_closed" data-name="Conjugates" data-wrapper-type=".conjugates_wrapper"><div class="options_text">View Available Conjugates</div> <div class="expander option_closed"></div></div><div class="conjugates_wrapper" data-title="ATG5 Antibody - BSA Free" data-catnum="NB110-53818"><table class="scf_table"> <thead> <tr> <th>Catalog# & Conjugate</th> <th>Size</th> <th class="col_price">Price</th> <th class="col_cart hidden"></th> </tr> </thead> <tbody><tr class="popup_sku" data-sku="NB110-53818AF350"> <td> <a href="/products/atg5-antibody_nb110-53818af350" class="conj_link">Alexa Fluor 350</a><br /> <a href="/products/atg5-antibody_nb110-53818af350" class="cat_link">NB110-53818AF350</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/707923"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF405"> <td> <a href="/products/atg5-antibody_nb110-53818af405" class="conj_link">Alexa Fluor 405</a><br /> <a href="/products/atg5-antibody_nb110-53818af405" class="cat_link">NB110-53818AF405</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/389496"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF488"> <td> <a href="/products/atg5-antibody_nb110-53818af488" class="conj_link">Alexa Fluor 488</a><br /> <a href="/products/atg5-antibody_nb110-53818af488" class="cat_link">NB110-53818AF488</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/389497"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF532"> <td> <a href="/products/atg5-antibody_nb110-53818af532" class="conj_link">Alexa Fluor 532</a><br /> <a href="/products/atg5-antibody_nb110-53818af532" class="cat_link">NB110-53818AF532</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/719248"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF594"> <td> <a href="/products/atg5-antibody_nb110-53818af594" class="conj_link">Alexa Fluor 594</a><br /> <a href="/products/atg5-antibody_nb110-53818af594" class="cat_link">NB110-53818AF594</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/707924"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF647"> <td> <a href="/products/atg5-antibody_nb110-53818af647" class="conj_link">Alexa Fluor 647</a><br /> <a href="/products/atg5-antibody_nb110-53818af647" class="cat_link">NB110-53818AF647</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/389498"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF700"> <td> <a href="/products/atg5-antibody_nb110-53818af700" class="conj_link">Alexa Fluor 700</a><br /> <a href="/products/atg5-antibody_nb110-53818af700" class="cat_link">NB110-53818AF700</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/389499"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF750"> <td> <a href="/products/atg5-antibody_nb110-53818af750" class="conj_link">Alexa Fluor 750</a><br /> <a href="/products/atg5-antibody_nb110-53818af750" class="cat_link">NB110-53818AF750</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/707925"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818APC"> <td> <a href="/products/atg5-antibody_nb110-53818apc" class="conj_link">Allophycocyanin</a><br /> <a href="/products/atg5-antibody_nb110-53818apc" class="cat_link">NB110-53818APC</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1040277"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818B"> <td> <a href="/products/atg5-antibody_nb110-53818b" class="conj_link">Biotin</a><br /> <a href="/products/atg5-antibody_nb110-53818b" class="cat_link">NB110-53818B</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/55821"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818CL1"> <td> <a href="/products/atg5-antibody_nb110-53818cl1" class="conj_link">CoraFluor 1</a><br /> <a href="/products/atg5-antibody_nb110-53818cl1" class="cat_link">NB110-53818CL1</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1310621"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818UV"> <td> <a href="/products/atg5-antibody_nb110-53818uv" class="conj_link">DyLight 350</a><br /> <a href="/products/atg5-antibody_nb110-53818uv" class="cat_link">NB110-53818UV</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/721501"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818V"> <td> <a href="/products/atg5-antibody_nb110-53818v" class="conj_link">DyLight 405</a><br /> <a href="/products/atg5-antibody_nb110-53818v" class="cat_link">NB110-53818V</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/335229"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818G"> <td> <a href="/products/atg5-antibody_nb110-53818g" class="conj_link">DyLight 488</a><br /> <a href="/products/atg5-antibody_nb110-53818g" class="cat_link">NB110-53818G</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/29777"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818R"> <td> <a href="/products/atg5-antibody_nb110-53818r" class="conj_link">DyLight 550</a><br /> <a href="/products/atg5-antibody_nb110-53818r" class="cat_link">NB110-53818R</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/94215"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818DL594"> <td> <a href="/products/atg5-antibody_nb110-53818dl594" class="conj_link">DyLight 594</a><br /> <a href="/products/atg5-antibody_nb110-53818dl594" class="cat_link">NB110-53818DL594</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/723598"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818C"> <td> <a href="/products/atg5-antibody_nb110-53818c" class="conj_link">DyLight 650</a><br /> <a href="/products/atg5-antibody_nb110-53818c" class="cat_link">NB110-53818C</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/4156"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818FR"> <td> <a href="/products/atg5-antibody_nb110-53818fr" class="conj_link">DyLight 680</a><br /> <a href="/products/atg5-antibody_nb110-53818fr" class="cat_link">NB110-53818FR</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1047472"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818IR"> <td> <a href="/products/atg5-antibody_nb110-53818ir" class="conj_link">DyLight 755</a><br /> <a href="/products/atg5-antibody_nb110-53818ir" class="cat_link">NB110-53818IR</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/729838"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818F"> <td> <a href="/products/atg5-antibody_nb110-53818f" class="conj_link">FITC</a><br /> <a href="/products/atg5-antibody_nb110-53818f" class="cat_link">NB110-53818F</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/334394"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818H"> <td> <a href="/products/atg5-antibody_nb110-53818h" class="conj_link">HRP</a><br /> <a href="/products/atg5-antibody_nb110-53818h" class="cat_link">NB110-53818H</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/62266"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818JF525"> <td> <a href="/products/atg5-antibody_nb110-53818jf525" class="conj_link">Janelia Fluor 525</a><br /> <a href="/products/atg5-antibody_nb110-53818jf525" class="cat_link">NB110-53818JF525</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1316322"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818JF585"> <td> <a href="/products/atg5-antibody_nb110-53818jf585" class="conj_link">Janelia Fluor 585</a><br /> <a href="/products/atg5-antibody_nb110-53818jf585" class="cat_link">NB110-53818JF585</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1316323"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818JF635"> <td> <a href="/products/atg5-antibody_nb110-53818jf635" class="conj_link">Janelia Fluor 635</a><br /> <a href="/products/atg5-antibody_nb110-53818jf635" class="cat_link">NB110-53818JF635</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1316324"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818JF669"> <td> <a href="/products/atg5-antibody_nb110-53818jf669" class="conj_link">Janelia Fluor 669</a><br /> <a href="/products/atg5-antibody_nb110-53818jf669" class="cat_link">NB110-53818JF669</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1316325"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818PE"> <td> <a href="/products/atg5-antibody_nb110-53818pe" class="conj_link">PE</a><br /> <a href="/products/atg5-antibody_nb110-53818pe" class="cat_link">NB110-53818PE</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1040278"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818PCP"> <td> <a href="/products/atg5-antibody_nb110-53818pcp" class="conj_link">PerCP</a><br /> <a href="/products/atg5-antibody_nb110-53818pcp" class="cat_link">NB110-53818PCP</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1040279"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818MFV450"> <td> <a href="/products/atg5-antibody_nb110-53818mfv450" class="conj_link">mFluor Violet 450 SE</a><br /> <a href="/products/atg5-antibody_nb110-53818mfv450" class="cat_link">NB110-53818MFV450</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1159404"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818MFV500"> <td> <a href="/products/atg5-antibody_nb110-53818mfv500" class="conj_link">mFluor Violet 500 SE</a><br /> <a href="/products/atg5-antibody_nb110-53818mfv500" class="cat_link">NB110-53818MFV500</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1159405"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818MFV610"> <td> <a href="/products/atg5-antibody_nb110-53818mfv610" class="conj_link">mFluor Violet 610 SE</a><br /> <a href="/products/atg5-antibody_nb110-53818mfv610" class="cat_link">NB110-53818MFV610</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart hidden"><a href="/commerce/add-to-cart/1159406"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr> <tr class="scf_footer"> <td colspan="4"><div class="expander option_opened"></div></td> </tr> </tbody> </table> <div class="popup_skus" data-skus='["NB110-53818AF350","NB110-53818AF405","NB110-53818AF488","NB110-53818AF532","NB110-53818AF594","NB110-53818AF647","NB110-53818AF700","NB110-53818AF750","NB110-53818APC","NB110-53818B","NB110-53818CL1","NB110-53818UV","NB110-53818V","NB110-53818G","NB110-53818R","NB110-53818DL594","NB110-53818C","NB110-53818FR","NB110-53818IR","NB110-53818F","NB110-53818H","NB110-53818JF525","NB110-53818JF585","NB110-53818JF635","NB110-53818JF669","NB110-53818PE","NB110-53818PCP","NB110-53818MFV450","NB110-53818MFV500","NB110-53818MFV610"]' data-rendered="false"></div></div><div class="list_expand options_closed" data-name="Formulations" data-wrapper-type=".formulations_wrapper"><div class="options_text">View Available Formulations</div> <div class="expander option_closed"></div></div><div class="formulations_wrapper" data-title="ATG5 Antibody - BSA Free" data-catnum="NB110-53818"><table class="scf_table"> <thead> <tr> <th>Catalog# & Formulation</th> <th>Size</th> <th class="col_price">Price</th> <th class="col_cart"></th> </tr> </thead> <tbody><tr class="popup_sku" data-sku="NB110-53818SS"> <td> <a href="/products/atg5-antibody_nb110-53818" class="conj_link">BSA Free</a><br /> <a href="/products/atg5-antibody_nb110-53818" class="cat_link">NB110-53818SS</a> </td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> <td class="col_cart"><a href="/commerce/add-to-cart/69568"><div class="purchase_cart"></div></a></td> </tr> <tr> <td colspan="4" class="row_stock"><div class="popup_stock"></div></td> </tr> <tr class="scf_footer"> <td colspan="4"><div class="expander option_opened"></div></td> </tr> </tbody> </table> <div class="popup_skus" data-skus='["NB110-53818SS"]' data-rendered="false"></div></div></div><div id="shipping_statement"><span id="shipping_rate"></span></div><div class="shipping_obt_transfer"><span>Novus Biologicals is part of Bio-Techne</span><br><br><a href="https://www.bio-techne.com/p/antibodies/atg5-antibody_nb110-53818" rel="follow" class="btn btn-primary">Shop this product on bio-techne.com</a></div><br><div class="learn_more"> <a href="/guarantee"> <div class="sprite_noImage" title="Novus Biologicals, part of Bio-Techne, offers 100% Guarantee"></div> <div class="learn_more_text">Novus Biologicals, part of Bio-Techne, offers 100% Guarantee</div></a> </div><span id="conj_form" class="hidden"><tr><td colspan="4"><table class="scf_table"> <thead> <tr> <th>Conjugate</th> <th>Catalog #</th> <th class="head_avail">Availability</th> <th>Size</th> <th class="col_price">Price</th> </tr> </thead> <tbody><tr class="popup_sku" data-sku="NB110-53818AF350"> <td><a href="/products/atg5-antibody_nb110-53818af350">Alexa Fluor 350</a></td> <td><a href="/products/atg5-antibody_nb110-53818af350">NB110-53818AF350</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF405"> <td><a href="/products/atg5-antibody_nb110-53818af405">Alexa Fluor 405</a></td> <td><a href="/products/atg5-antibody_nb110-53818af405">NB110-53818AF405</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF488"> <td><a href="/products/atg5-antibody_nb110-53818af488">Alexa Fluor 488</a></td> <td><a href="/products/atg5-antibody_nb110-53818af488">NB110-53818AF488</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF532"> <td><a href="/products/atg5-antibody_nb110-53818af532">Alexa Fluor 532</a></td> <td><a href="/products/atg5-antibody_nb110-53818af532">NB110-53818AF532</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF594"> <td><a href="/products/atg5-antibody_nb110-53818af594">Alexa Fluor 594</a></td> <td><a href="/products/atg5-antibody_nb110-53818af594">NB110-53818AF594</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF647"> <td><a href="/products/atg5-antibody_nb110-53818af647">Alexa Fluor 647</a></td> <td><a href="/products/atg5-antibody_nb110-53818af647">NB110-53818AF647</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF700"> <td><a href="/products/atg5-antibody_nb110-53818af700">Alexa Fluor 700</a></td> <td><a href="/products/atg5-antibody_nb110-53818af700">NB110-53818AF700</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818AF750"> <td><a href="/products/atg5-antibody_nb110-53818af750">Alexa Fluor 750</a></td> <td><a href="/products/atg5-antibody_nb110-53818af750">NB110-53818AF750</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818APC"> <td><a href="/products/atg5-antibody_nb110-53818apc">Allophycocyanin</a></td> <td><a href="/products/atg5-antibody_nb110-53818apc">NB110-53818APC</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818B"> <td><a href="/products/atg5-antibody_nb110-53818b">Biotin</a></td> <td><a href="/products/atg5-antibody_nb110-53818b">NB110-53818B</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818CL1"> <td><a href="/products/atg5-antibody_nb110-53818cl1">CoraFluor 1</a></td> <td><a href="/products/atg5-antibody_nb110-53818cl1">NB110-53818CL1</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818UV"> <td><a href="/products/atg5-antibody_nb110-53818uv">DyLight 350</a></td> <td><a href="/products/atg5-antibody_nb110-53818uv">NB110-53818UV</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818V"> <td><a href="/products/atg5-antibody_nb110-53818v">DyLight 405</a></td> <td><a href="/products/atg5-antibody_nb110-53818v">NB110-53818V</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818G"> <td><a href="/products/atg5-antibody_nb110-53818g">DyLight 488</a></td> <td><a href="/products/atg5-antibody_nb110-53818g">NB110-53818G</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818R"> <td><a href="/products/atg5-antibody_nb110-53818r">DyLight 550</a></td> <td><a href="/products/atg5-antibody_nb110-53818r">NB110-53818R</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818DL594"> <td><a href="/products/atg5-antibody_nb110-53818dl594">DyLight 594</a></td> <td><a href="/products/atg5-antibody_nb110-53818dl594">NB110-53818DL594</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818C"> <td><a href="/products/atg5-antibody_nb110-53818c">DyLight 650</a></td> <td><a href="/products/atg5-antibody_nb110-53818c">NB110-53818C</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818FR"> <td><a href="/products/atg5-antibody_nb110-53818fr">DyLight 680</a></td> <td><a href="/products/atg5-antibody_nb110-53818fr">NB110-53818FR</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818IR"> <td><a href="/products/atg5-antibody_nb110-53818ir">DyLight 755</a></td> <td><a href="/products/atg5-antibody_nb110-53818ir">NB110-53818IR</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818F"> <td><a href="/products/atg5-antibody_nb110-53818f">FITC</a></td> <td><a href="/products/atg5-antibody_nb110-53818f">NB110-53818F</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818H"> <td><a href="/products/atg5-antibody_nb110-53818h">HRP</a></td> <td><a href="/products/atg5-antibody_nb110-53818h">NB110-53818H</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818JF525"> <td><a href="/products/atg5-antibody_nb110-53818jf525">Janelia Fluor 525</a></td> <td><a href="/products/atg5-antibody_nb110-53818jf525">NB110-53818JF525</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818JF585"> <td><a href="/products/atg5-antibody_nb110-53818jf585">Janelia Fluor 585</a></td> <td><a href="/products/atg5-antibody_nb110-53818jf585">NB110-53818JF585</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818JF635"> <td><a href="/products/atg5-antibody_nb110-53818jf635">Janelia Fluor 635</a></td> <td><a href="/products/atg5-antibody_nb110-53818jf635">NB110-53818JF635</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818JF669"> <td><a href="/products/atg5-antibody_nb110-53818jf669">Janelia Fluor 669</a></td> <td><a href="/products/atg5-antibody_nb110-53818jf669">NB110-53818JF669</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818PE"> <td><a href="/products/atg5-antibody_nb110-53818pe">PE</a></td> <td><a href="/products/atg5-antibody_nb110-53818pe">NB110-53818PE</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818PCP"> <td><a href="/products/atg5-antibody_nb110-53818pcp">PerCP</a></td> <td><a href="/products/atg5-antibody_nb110-53818pcp">NB110-53818PCP</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818MFV450"> <td><a href="/products/atg5-antibody_nb110-53818mfv450">mFluor Violet 450 SE</a></td> <td><a href="/products/atg5-antibody_nb110-53818mfv450">NB110-53818MFV450</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818MFV500"> <td><a href="/products/atg5-antibody_nb110-53818mfv500">mFluor Violet 500 SE</a></td> <td><a href="/products/atg5-antibody_nb110-53818mfv500">NB110-53818MFV500</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr><tr class="popup_sku" data-sku="NB110-53818MFV610"> <td><a href="/products/atg5-antibody_nb110-53818mfv610">mFluor Violet 610 SE</a></td> <td><a href="/products/atg5-antibody_nb110-53818mfv610">NB110-53818MFV610</a></td> <td><div class="popup_stock"></div></td> <td><div class="popup_size"></div></td> <td class="col_price"><div class="popup_price"></div></td> </tr> <tr class="scf_footer"> <td colspan="5"><div class="expander option_opened"></div></td> </tr> </tbody> </table> <div class="popup_skus" data-skus='["NB110-53818AF350","NB110-53818AF405","NB110-53818AF488","NB110-53818AF532","NB110-53818AF594","NB110-53818AF647","NB110-53818AF700","NB110-53818AF750","NB110-53818APC","NB110-53818B","NB110-53818CL1","NB110-53818UV","NB110-53818V","NB110-53818G","NB110-53818R","NB110-53818DL594","NB110-53818C","NB110-53818FR","NB110-53818IR","NB110-53818F","NB110-53818H","NB110-53818JF525","NB110-53818JF585","NB110-53818JF635","NB110-53818JF669","NB110-53818PE","NB110-53818PCP","NB110-53818MFV450","NB110-53818MFV500","NB110-53818MFV610"]' data-rendered="false"></div></td></tr></span> </div> </div><div class="clear"></div><div class="grid_10"><div><div id="ds_tabs" style="display:none;"> <div class="ds_tab_active" id="dsTabs_datasheet" data-anchor_desc="datasheet">Datasheet</div> <div class="ds_tab" id="dsTabs_reviews-publications" data-anchor_desc="reviews-publications">Reviews & Publications</div> <div class="ds_tab" id="dsTabs_protocols-faqs" data-anchor_desc="protocols-faqs">Protocols & FAQs</div> <div class="ds_tab" id="dsTabs_supportresearch" data-anchor_desc="supportresearch">Support & Research</div> </div><div class="ds_tab_content equalbottom" id="content_datasheet" > <a id="datasheet"></a><h2 class=greyHead2>ATG5 Antibody - BSA Free Summary</h2> <div class="ds_info"> <a id="tab1details"></a> <table class="ds_list wide" style="table-layout:fixed;"> <tr class="lined"> <td><strong>Immunogen</strong></td> <td><div>This ATG5 Antibody was made to a synthetic peptide of an N-terminal region of the human ATG5 protein (within residues 1-50) [Swiss-Prot Q9H1Y0].</div></td> </tr><tr class="lined"> <td><strong>Localization</strong></td> <td><div>Cytoplasm. Co-localizes with non-muscle actin.</div></td> </tr><tr class="lined"> <td><strong>Specificity</strong></td> <td><div>This is selective for the full-length and calpain cleaved isoform proteins. The short isoform is missing amino acids 1-79. The calpain cleaved form of ATG5 is missing amino acids 195-275.</div></td> </tr><tr class="lined"> <td><strong>Isotype</strong></td> <td><div>IgG</div></td> </tr><tr class="lined"> <td><strong>Clonality</strong></td> <td><div>Polyclonal</div></td> </tr><tr class="lined"> <td><strong>Host</strong></td> <td><div>Rabbit</div></td> </tr><tr class="lined"> <td><strong>Gene</strong></td> <td><div>ATG5</div></td> </tr><tr class="lined"> <td><strong>Purity</strong></td> <td><div>Immunogen affinity purified</div></td> </tr><tr class="lined"> <td><strong>Innovator's Reward</strong></td> <td><div>Test in a species/application not listed above to receive a full credit towards a future purchase.<br/><div class='text_right'><a class='ds_submit_blue ds_regularPad' href='/support/innovators-reward.html'>Learn about the Innovator's Reward</a></div></div></td> </tr> </table> </div> <h2 class="greyHead2">Applications/Dilutions</h2> <div class="ds_info"> <a id="tab1appsdiluts"></a> <table class="ds_list wide"> <tr class="lined"> <td><strong>Dilutions</strong></td> <td> <ul class="ds_noDotList"><li>Electron Microscopy </li><li>ELISA </li><li>Flow Cytometry </li><li>Immunoblotting </li><li>Immunocytochemistry/ Immunofluorescence 1:250</li><li>Immunohistochemistry 1:400</li><li>Immunohistochemistry-Paraffin 1:400</li><li>Immunoprecipitation 1:10 - 1:500</li><li>Knockdown Validated </li><li>Knockout Validated </li><li>Proximity Ligation Assay </li><li>Radioimmunoassay </li><li>Simple Western 1:50</li><li>Western Blot 1:500</li> </ul> </td> </tr><tr class="lined"> <td><strong>Theoretical MW</strong></td> <td><div>32 kDa.<br> Disclaimer note: The observed molecular weight of the protein may vary from the listed predicted molecular weight due to post translational modifications, post translation cleavages, relative charges, and other experimental factors.</div></td> </tr> <tr class="lined"> <td><strong>Control</strong></td> <td> <table class="wide ds_altTable"><tr> <td style="width:80%"><a href="/atg5-lysate_nbl1-07799">ATG5 Overexpression Lysate</a></td> <td class="text_right"> <div class="add-to-cart" data-type="anc_btnonly" data-catbase="NBL1-07799" data-return="atg5-antibody_nb110-53818" data-produrl="atg5-antibody_nb110-53818" data-catnums="NBL1-07799" ></div> </td> </tr></table> </td> </tr> <tr class="lined"> <td><strong>Control Peptide</strong></td> <td> <table class="wide ds_altTable"><tr> <td style="width:80%"><a href="/atg5-protein_nb110-53818pep">ATG5 Protein (NB110-53818PEP)</a></td> <td class="text_right"> <div class="add-to-cart" data-type="anc_btnonly" data-catbase="NB110-53818PEP" data-return="atg5-antibody_nb110-53818" data-produrl="atg5-antibody_nb110-53818" data-catnums="NB110-53818PEP" ></div> </td> </tr></table> </td> </tr><tr class="lined"> <td><strong>Reviewed Applications</strong></td> <td> <table class="wide"> <tr> <td> Read <a href="#ReviewsSection">8 Reviews</a> rated 4.3<div class="dsSprite_stars4"></div> using <br/>NB110-53818 in the following applications:<br /><br /> <ul class="information-list"><li> <div class="information-subject"><a href="#ReviewsSection" class="filter_link" data-destination="review" data-type="application" data-filter="Western Blot">Western Blot</a></div> <div class="information-data"></div> </li><li> <div class="information-subject"><a href="#ReviewsSection" class="filter_link" data-destination="review" data-type="application" data-filter="Immunohistochemistry-Paraffin">Immunohistochemistry-Paraffin</a></div> <div class="information-data"></div> </li> </ul> </td> </tr> </table> </td> </tr><tr class="lined"> <td><strong>Publications</strong></td> <td> <table> <tr> <td>Read <a href="#PublicationSection"> Publications</a> using<br/> NB110-53818 in the following applications:<br /><br /> <ul class="information-list"><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="Block/Neutralize">Block/Neutralize</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="ELISA">ELISA</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="EM">EM</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="FLOW">FLOW</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="ICC/IF">ICC/IF</a> </div><div class="information-data">11 publications</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="IF/IHC">IF/IHC</a> </div><div class="information-data">12 publications</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="IHC-Fr">IHC-Fr</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="IHC-P">IHC-P</a> </div><div class="information-data">9 publications</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="IP">IP</a> </div><div class="information-data">2 publications</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="Immunocytochemistry/ Immunofluorescence">Immunocytochemistry/ Immunofluorescence</a> </div><div class="information-data">2 publications</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="Immunohistochemistry">Immunohistochemistry</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="In vivo assay">In vivo assay</a> </div><div class="information-data">2 publications</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="KO">KO</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="PLA">PLA</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="RIA">RIA</a> </div><div class="information-data">1 publication</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="WB">WB</a> </div><div class="information-data">164 publications</div></li><li class="noIndent"><div class="information-subject"> <a href="#PublicationSection" class="filter_link" data-destination="publication" data-type="application" data-filter="Western Blot">Western Blot</a> </div><div class="information-data">6 publications</div></li></ul></td> </tr> </table> </td> </tr> </table> </div><h2 class="greyHead2">Reactivity Notes</h2> <div> <a id="tab1speciesreactivity"></a> <div class="ds_info"> Drosophila reactivity reported in scientific literature (PMID:33221768) Fish reactivity reported in scientific literature (PMID: 26183773). Guinea Pig reactivity reported in scientific literature (PMID: 30766882). Use in Alligator reported in scientific literature (PMID:32061056).</div> </div> <h2 class="greyHead2">Packaging, Storage & Formulations</h2><div class="ds_info"><table class="ds_list"><tr class="lined"> <td><strong>Storage</strong></td> <td><div>Store at 4C short term. Aliquot and store at -20C long term. Avoid freeze-thaw cycles.</div></td> </tr><tr class="lined"> <td><strong>Buffer</strong></td> <td><div>PBS</div></td> </tr><tr class="lined"> <td><strong>Preservative</strong></td> <td><div>0.02% Sodium Azide</div></td> </tr><tr class="lined"> <td><strong>Concentration</strong></td> <td><div>1.0 mg/ml</div></td> </tr><tr class="lined"> <td><strong>Purity</strong></td> <td><div>Immunogen affinity purified</div></td> </tr></table></div><h2 class="greyHead2">Alternate Names for ATG5 Antibody - BSA Free</h2> <div class="ds_info"> <a id="tab1altnames"></a> <div class="information-list"> <ul><li>APG5 (Autophagy 5, S. Cerevisiae)-Like</li><li>APG5 autophagy 5-like (S. cerevisiae)</li><li>APG5</li><li>APG5L</li><li>APG5-LIKE</li><li>ASP</li><li>ASPAPG5-LIKE</li><li>ATG5 autophagy related 5 homolog (S. cerevisiae)</li><li>ATG5 Autophagy Related 5 Homolog</li><li>ATG5</li><li>Autophagy protein 5</li><li>Autophagy Related 5</li><li>HAPG5</li><li>SCAR25</li></ul></div> </div> <h2 class="greyHead2">Background</h2> <div class="ds_info"> <a id="tab1background"></a> <div><a target="_blank" href="https://www.novusbio.com/common-name/atg5">Atg5</a>, Autophagy related 5 or autophagy protein 5 (theoretical molecular weight 32 kDa), belongs to a group of core <a target="_blank" href="https://www.novusbio.com/research-areas/autophagy">autophagy</a>-related proteins first identified in yeast and later in eukaryotic cells. Atg proteins play essential roles in the process of macroautophagy. Atg5 is considered a core autophagy protein, for its role in the formation of the autophagosome, a double membrane vesicle which engulfs proteins and organelles for delivery to the <a target="_blank" href="https://www.novusbio.com/research-areas/cellular-markers/lysosome-markers">lysosome</a> and subsequent degradation (1). Atg5 participates in the process of phagophore elongation by interacting with the ubiquitin-like protein <a target="_blank" href="https://www.novusbio.com/common-name/atg12">Atg12</a>. Formation of the Atg12-Atg5 conjugate is dependent on the activities of <a target="_blank" href="https://www.novusbio.com/common-name/atg7">Atg7</a> (E1 ubiquitin-activating like enzyme) and <a target="_blank" href="https://www.novusbio.com/common-name/atg10">Atg10</a> (E2 ubiquitin-activating like enzyme). Non-covalent interaction between the Atg12-Atg5 conjugate and <a target="_blank" href="https://www.novusbio.com/common-name/atg16l1">Atg16L1</a>, allows for the formation of a large complex which associates with the nascent phagophore. The Atg16L1 complex dissociates from the autophagosome once it is fully formed (1,2). <br/><br/> In the context of its role in autophagy, Atg5 plays diverse physiologically relevant roles. For example, Atg5 together with Atg7 are required for adipogenesis (3). Recently, Atg5 has been implicated in the process of B-cell receptor polarization and antigen presentation (4). In addition to its role in autophagy, Atg5 is implicated in <a target="_blank" href="https://www.novusbio.com/research-areas/apoptosis">apoptotic cell death</a>. Interaction of Atg5 with <a target="_blank" href="https://www.novusbio.com/common-name/fadd">FADD</a> (Fas-associated protein with death domain) is involved in cell death induced by <a target="_blank" href="https://www.novusbio.com/common-name/ifn-gamma">IFN-gamma</a>. A truncated form of Atg5, a 24kDa fragment, leads to cell death by interacting with <a target="_blank" href="https://www.novusbio.com/common-name/bcl-xl">Bcl-xl</a> and inhibiting its anti-apoptotic activity (5). Other Atg5 interacting partners include <a target="_blank" href="https://www.novusbio.com/common-name/caspase-1">interleukin-beta (IL-beta) converting enzyme</a> and <a target="_blank" href="https://www.novusbio.com/common-name/nod1">nucleotide binding oligomerization domain protein 1</a>, which suggest that Atg5 may play other biologically relevant roles (3). <br/><br/> References <br/><br/> 1. Yang, Z., & Klionsky, D. J. (2010). Mammalian autophagy: Core molecular machinery and signaling regulation. Current Opinion in Cell Biology. https://doi.org/10.1016/j.ceb.2009.11.014 <br/><br/> 2. Rubinsztein, D. C., Shpilka, T., & Elazar, Z. (2012). Mechanisms of autophagosome biogenesis. Current Biology. https://doi.org/10.1016/j.cub.2011.11.034 <br/><br/> 3. Subramani, S., & Malhotra, V. (2013). Non-autophagic roles of autophagy-related proteins. EMBO Reports. https://doi.org/10.1038/embor.2012.220 <br/><br/> 4. Arbogast, F., Arnold, J., Hammann, P., Kuhn, L., Chicher, J., Murera, D., Gros, F. (2019). ATG5 is required for B cell polarization and presentation of particulate antigens. Autophagy. https://doi.org/10.1080/15548627.2018.1516327 <br/><br/> 5. Luo, S., & Rubinsztein, D. C. (2007). Atg5 and Bcl-2 provide novel insights into the interplay between apoptosis and autophagy. Cell Death and Differentiation. https://doi.org/10.1038/sj.cdd.4402149</div> </div> <h2 class="greyHead2">Limitations</h2> <div class="ds_info"> <a id="tab1background"></a> <div>This product is for research use only and is not approved for use in humans or in clinical diagnosis. Primary Antibodies are <a href="/support/quality-assurance.html">guaranteed</a> for 1 year from date of receipt.</div> </div><h2 class="greyHead2">Customers Who Viewed This Item Also Viewed...</h2> <a id="custalsoviewed"></a><div id="cav_prev"><div class="sprite_leftArrow"></div></div> <div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout=0 data-cycle-prev="#cav_prev" data-cycle-next="#cav_next" data-cycle-slides="div.ds_cav_group" id="ds_customer_also_viewed"><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NB500-249"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/beclin-1-antibody_nb500-249" style="overflow: hidden; width: 280px;" title="Beclin 1 Antibody - BSA Free">Beclin 1 Antibody<br> - BSA Free</a>    </div><div class="sub-header">NB500-249</div> <div class="images_customers"><div id="ss_prev_cav0" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-0" data-cycle-prev="#ss_prev_cav0" data-cycle-next="#ss_next_cav0" data-cycle-slides="div.big_thumb_cust_container" data-index=0 ><div class="big_thumb_cust_container"> <a href="/products/beclin-1-antibody_nb500-249" title="Western Blot: Beclin 1 Antibody - BSA Free [NB500-249] - Representative Western blot images and quantitative analyses of Beclin 1 from the left hemisphere of rat brains at different time points after SAH. Sample size is 36, n = 6 per group. Data were presented as mean +/- SD. F = 12.37 for Beclin 1. *P &lt; .05, ** P &lt; .01, ***P &lt; .001 vs Sham group. SAH, subarachnoid hemorrhage. Image collected and cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/31436915/) licensed under a CC-BY license." class="cust_viewed_0" > <img loading="lazy" src="https://images.novusbio.com/images/Beclin 1 Antibody - BSA Free-Western Blot-NB500-249-img0025.jpg" alt="Western Blot Beclin 1 Antibody - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/beclin-1-antibody_nb500-249" title="Simple Western: Beclin 1 Antibody - BSA Free [NB500-249] - Image shows a specific band for Beclin1 in 1.0 mg/mL of HeLa lysate. This experiment was performed under reducing conditions using the 12-230 kDa separation system." class="cust_viewed_0" > <img loading="lazy" src="https://images.novusbio.com/images/Beclin-1-Antibody---BSA-Free-Simple-Western-NB500-249-img0012.jpg" alt="Simple Western Beclin 1 Antibody - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/beclin-1-antibody_nb500-249" title="Immunocytochemistry/Immunofluorescence: Beclin 1 Antibody - BSA Free [NB500-249] - Beclin 1/ATG6 Antibody [NB500-249] - Beclin 1 antibody was tested in HeLa cells with Dylight 488 (green). Nuclei and alpha-tubulin were counterstained with DAPI (blue) and Dylight 550 (red)." class="cust_viewed_0" > <img loading="lazy" src="https://images.novusbio.com/images/Beclin-1-Antibody---BSA-Free-Immunocytochemistry-Immunofluorescence-NB500-249-img0013.jpg" alt="Immunocytochemistry/ Immunofluorescence Beclin 1 Antibody - BSA Free" class="big_thumb" /> </a> </div></div><div id="ss_next_cav0" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-0" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/beclin-1-antibody_nb500-249#ReviewsSection"> <div class="sprite_4Stars"></div> (9 Reviews</a>) </div> <div class="tiny"> <a href="/products/beclin-1-antibody_nb500-249#PublicationSection"> <div class="sprite_pubBook"></div> (162 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu, Mu, Rt</div><div class="tiny"><strong>Applications:</strong> Flow, ICC/IF, IHC, IHC-Fr, IHC-P, IP, KD, Simple Western, WB</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NB100-2331"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/lc3a-antibody_nb100-2331" style="overflow: hidden; width: 280px;" title="LC3A Antibody - BSA Free">LC3A Antibody -<br> BSA Free</a>    </div><div class="sub-header">NB100-2331</div> <div class="images_customers"><div id="ss_prev_cav1" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-1" data-cycle-prev="#ss_prev_cav1" data-cycle-next="#ss_next_cav1" data-cycle-slides="div.big_thumb_cust_container" data-index=1 ><div class="big_thumb_cust_container"> <a href="/products/lc3a-antibody_nb100-2331" title="Western Blot: LC3A Antibody - BSA Free [NB100-2331] - Autophagy mobilized during differentiation of immortalized human mesenchymal stem cells (ihMSCs). Cultured ihMSCs were stimulated to undergo osteogenesis to form osteoblasts for 30 days at 21% and 4% oxygen. LC3I and LC3II levels were assessed via immunoblot every 10 days and normalized to beta-actin to derive average LC3II band densities. Image collected and cropped by CiteAb from the following publication (//pubmed.ncbi.nlm.nih.gov/25523618/) licensed under a CC-BY license." class="cust_viewed_1" > <img loading="lazy" src="https://images.novusbio.com/images/LC3A Antibody - BSA Free-Western Blot-NB100-2331-img0047.jpg" alt="Western Blot LC3A Antibody - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/lc3a-antibody_nb100-2331" title="Simple Western: LC3A Antibody - BSA Free [NB100-2331] - LC3A Antibody [NB100-2331] - Image shows a specific band for LC3 in 0.5 mg/mL of Neuro2A lysate. This experiment was performed under reducing conditions using the 12-230 kDa separation system." class="cust_viewed_1" > <img loading="lazy" src="https://images.novusbio.com/images/LC3A-Antibody---BSA-Free-Simple-Western-NB100-2331-img0025.jpg" alt="Simple Western LC3A Antibody - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/lc3a-antibody_nb100-2331" title="Western Blot: LC3A Antibody - BSA Free [NB100-2331] - LC3A Antibody [NB100-2331] - Autophagy mobilized during differentiation of immortalized human mesenchymal stem cells (ihMSCs). Cultured ihMSCs were stimulated to undergo osteogenesis to form osteoblasts for 30 days at 21% and 4% oxygen. LC3I and LC3II levels were assessed via immunoblot every 10 days and normalized to beta-actin to derive average LC3II band densities. Image collected and cropped by CiteAb from the following publication (https://stemcellres.com/content/5/6/140), licensed under a CC-BY license." class="cust_viewed_1" > <img loading="lazy" src="https://images.novusbio.com/images/LC3A-Antibody---BSA-Free-Western-Blot-NB100-2331-img0036.jpg" alt="Western Blot LC3A Antibody - BSA Free" class="big_thumb" /> </a> </div></div><div id="ss_next_cav1" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-1" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/lc3a-antibody_nb100-2331#ReviewsSection"> <div class="sprite_4Stars"></div> (22 Reviews</a>) </div> <div class="tiny"> <a href="/products/lc3a-antibody_nb100-2331#PublicationSection"> <div class="sprite_pubBook"></div> (306 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Am, Ca, Fi, Hu, Mu, Pl, Rt, Ze</div><div class="tiny"><strong>Applications:</strong> ChIP, ChIP, ELISA, Flow, IB, ICC/IF, IHC-WhMt, IHC, IHC-Fr, IHC-P, IP, Simple Western, SB, WB</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="MAB6608"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/atg7-antibody-683906_mab6608" style="overflow: hidden; width: 280px;" title="ATG7 Antibody (683906) [Unconjugated]">ATG7 Antibody<br> (683906) [Unconjugate</a>    </div><div class="sub-header">MAB6608</div> <div class="images_customers"><div id="ss_prev_cav2" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-2" data-cycle-prev="#ss_prev_cav2" data-cycle-next="#ss_next_cav2" data-cycle-slides="div.big_thumb_cust_container" data-index=2 ><div class="big_thumb_cust_container"> <a href="/products/atg7-antibody-683906_mab6608" title="ATG7 was detected in formalin fixed paraffin-embedded sections of human brain (cortex) using Mouse Anti-Human ATG7 Monoclonal Antibody (Catalog # MAB6608) at 15 µg/mL overnight at 4 °C. Before incubation with the primary antibody, tissue was subjected to heat-induced epitope retrieval using Antigen Retrieval Reagent-Basic (Catalog # CTS013). Tissue was stained using the Anti-Mouse HRP-DAB Cell &amp; Tissue Staining Kit (brown; Catalog # CTS002) and counter-stained with hematoxylin (blue). Specific staining was localized to neuronal cell bodies and processes. View our protocol for Chromogenic IHC Staining of Paraffin-embedded Tissue Sections." class="cust_viewed_2" > <img loading="lazy" src="https://images.novusbio.com/images2/ATG7_MAB6608_Immunohistochemistry_10631.jpg" alt="Immunohistochemistry ATG7 Antibody (683906) [Unconjugated]" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/atg7-antibody-683906_mab6608" title="Simple Western lane view shows lysates of HeLa human cervical epithelial carcinoma cell line, loaded at 0.2&amp;nbsp;mg/mL. A specific band was detected for ATG7 at approximately&amp;nbsp;72&amp;nbsp;kDa (as indicated) using 20&amp;nbsp;µg/mL of Mouse Anti-Human/Mouse ATG7 Monoclonal Antibody (Catalog # MAB6608). This experiment was conducted under reducing conditions and using the 12-230 kDa separation system. " class="cust_viewed_2" > <img loading="lazy" src="https://images.novusbio.com/images2/ATG7_MAB6608_Simple_Western_16409.jpg" alt="Simple Western ATG7 Antibody (683906) [Unconjugated]" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/atg7-antibody-683906_mab6608" title="Western blot shows lysates of HeLa human cervical epithelial carcinoma cell line and HepG2 human hepatocellular carcinoma cell line. PVDF membrane was probed with 2 µg/mL of Mouse Anti-Human ATG7 Monoclonal Antibody (Catalog # MAB6608) followed by HRP-conjugated Anti-Mouse IgG Secondary Antibody (Catalog # HAF007). A specific band was detected for ATG7 at approximately 75 kDa (as indicated). This experiment was conducted under reducing conditions and using Immunoblot Buffer Group 1." class="cust_viewed_2" > <img loading="lazy" src="https://images.novusbio.com/images2/ATG7_MAB6608_Western_Blot_11614.jpg" alt="Western Blot ATG7 Antibody (683906) [Unconjugated]" class="big_thumb" /> </a> </div></div><div id="ss_next_cav2" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-2" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/atg7-antibody-683906_mab6608#ReviewsSection"> <div class="sprite_5Stars"></div> (1 Review</a>) </div> <div class="tiny"> <a href="/products/atg7-antibody-683906_mab6608#PublicationSection"> <div class="sprite_pubBook"></div> (15 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu, Mu</div><div class="tiny"><strong>Applications:</strong> CyTOF-ready, ICC, IHC, ICFlow, Simple Western, WB</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NBP2-15501"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/atg12-antibody_nbp2-15501" style="overflow: hidden; width: 280px;" title="ATG12 Antibody">ATG12 Antibody</a>    </div><div class="sub-header">NBP2-15501</div> <div class="images_customers"><div id="ss_prev_cav3" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-3" data-cycle-prev="#ss_prev_cav3" data-cycle-next="#ss_next_cav3" data-cycle-slides="div.big_thumb_cust_container" data-index=3 ><div class="big_thumb_cust_container"> <a href="/products/atg12-antibody_nbp2-15501" title="Western Blot: ATG12 Antibody [NBP2-15501] - Sample (50 ug of whole cell lysate) A: Rat brain 12% SDS PAGE diluted at 1:1000 The HRP-conjugated anti-rabbit IgG antibody (NBP2-19301) was used to detect the primary antibody." class="cust_viewed_3" > <img loading="lazy" src="https://images.novusbio.com/images/ATG12-Antibody-Western-Blot-NBP2-15501-img0014.jpg" alt="Western Blot ATG12 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/atg12-antibody_nbp2-15501" title="Immunohistochemistry-Paraffin: ATG12 Antibody [NBP2-15501] - Human lung cancer. ATG12 stained by ATG12 antibody diluted at 1:500. Antigen Retrieval: Citrate buffer, pH 6.0, 15 min" class="cust_viewed_3" > <img loading="lazy" src="https://images.novusbio.com/images/ATG12-Antibody-Immunohistochemistry-Paraffin-NBP2-15501-img0015.jpg" alt="Immunohistochemistry-Paraffin ATG12 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/atg12-antibody_nbp2-15501" title="Western Blot: ATG12 Antibody [NBP2-15501] - Sample (30 ug of whole cell lysate) A: NIH-3T3 12% SDS PAGE gel, diluted at 1:1000." class="cust_viewed_3" > <img loading="lazy" src="https://images.novusbio.com/images/ATG12-Antibody-Western-Blot-NBP2-15501-img0002.jpg" alt="Western Blot ATG12 Antibody" class="big_thumb" /> </a> </div></div><div id="ss_next_cav3" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-3" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/atg12-antibody_nbp2-15501#PublicationSection"> <div class="sprite_pubBook"></div> (4 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu, Mu, Rt</div><div class="tiny"><strong>Applications:</strong> ICC/IF, IHC, IHC-P, IP, WB</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="MAB1417"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/insulin-antibody-182410_mab1417" style="overflow: hidden; width: 280px;" title="Insulin Antibody (182410) [Unconjugated]">Insulin Antibody<br> (182410) [Unconjugate ...</a>    </div><div class="sub-header">MAB1417</div> <div class="images_customers"><div id="ss_prev_cav4" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-4" data-cycle-prev="#ss_prev_cav4" data-cycle-next="#ss_next_cav4" data-cycle-slides="div.big_thumb_cust_container" data-index=4 ><div class="big_thumb_cust_container"> <a href="/products/insulin-antibody-182410_mab1417" title="Insulin was detected in immersion fixed beta TC-6 mouse beta cell insulinoma cell line using Human/Mouse/Bovine Insulin Monoclonal Antibody (Catalog # MAB1417) at 10 µg/mL for 3 hours at room temperature. Cells were stained using the NorthernLights&amp;#8482; 557-conjugated Anti-Rat IgG Secondary Antibody (red; Catalog # NL013) and counterstained with DAPI (blue). View our protocol for Fluorescent ICC Staining of Cells on Coverslips." class="cust_viewed_4" > <img loading="lazy" src="https://images.novusbio.com/images2/Insulin_MAB1417_Immunocytochemistry_9376.jpg" alt="Immunocytochemistry Insulin Antibody (182410) [Unconjugated]" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/insulin-antibody-182410_mab1417" title="Insulin was detected in immersion fixed paraffin-embedded sections of human pancreas using Rat Anti-Human/Mouse/Bovine Insulin Monoclonal Antibody (Catalog # MAB1417) at 0.5&amp;#160;&amp;micro;g/mL for 1 hour at room temperature followed by incubation with the Anti-Rat IgG VisUCyte&amp;trade; HRP Polymer Antibody (VC005). Before incubation with the primary antibody, tissue was subjected to heat-induced epitope retrieval using Antigen Retrieval Reagent-Basic (CTS013). Tissue was stained using DAB (brown) and counterstained with hematoxylin (blue). Specific staining was localized to cytoplasm and plasma membrane in islet cells. Staining was performed using our protocol for IHC Staining with VisUCyte HRP Polymer Detection Reagents." class="cust_viewed_4" > <img loading="lazy" src="https://images.novusbio.com/images2/mab1417_human-bovine-mouse-insulin-mab-clone-182410-immunohistochemistry-308202115145.jpg" alt="Immunohistochemistry Insulin Antibody (182410) [Unconjugated]" class="big_thumb" /> </a> </div></div><div id="ss_next_cav4" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-4" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/insulin-antibody-182410_mab1417#PublicationSection"> <div class="sprite_pubBook"></div> (24 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Bv, Hu, Mu</div><div class="tiny"><strong>Applications:</strong> CyTOF-ready, ICC, IHC, ICFlow</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NB200-540"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/complement-c3-antibody-11h9_nb200-540" style="overflow: hidden; width: 280px;" title="Complement C3 Antibody (11H9) - BSA Free">Complement C3<br> Antibody (11H9) - BSA ...</a>    </div><div class="sub-header">NB200-540</div> <div class="images_customers"><div id="ss_prev_cav5" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-5" data-cycle-prev="#ss_prev_cav5" data-cycle-next="#ss_next_cav5" data-cycle-slides="div.big_thumb_cust_container" data-index=5 ><div class="big_thumb_cust_container"> <a href="/products/complement-c3-antibody-11h9_nb200-540" title="Flow Cytometry: Complement C3 Antibody (11H9) [NB200-540] - Left panel: FMO, Middle panel: No primary antibody control, Right panel: sample. Day 6 murine mammary tumors processed and stained for analysis with flow cytometry. The C3b+ population of CD45+ cells is what the gate in each sample is exhibiting. WB image submitted by a verified customer review." class="cust_viewed_5" > <img loading="lazy" src="https://images.novusbio.com/images/Complement-C3-Antibody-11H9-Flow-Cytometry-NB200-540-img0006.jpg" alt="Flow Cytometry Complement C3 Antibody (11H9) - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/complement-c3-antibody-11h9_nb200-540" title="Immunocytochemistry/Immunofluorescence: Complement C3 Antibody (11H9) [NB200-540] - C3 protein fragments deposited on kidney cells of MPL-lpr mouse. Staining with antibody 11H9. Glomerular staining pattern. Fixation in 4% paraformaldehyde in PBS pH 7.4. Vibratome sections of 4 um. Pretreated with 3% hydrogen peroxide for 20 min to quench endogenous peroxidases. Microwaved in antigen unmasking solution for 2-5 minutes as antigen retrieval." class="cust_viewed_5" > <img loading="lazy" src="https://images.novusbio.com/images/Complement-C3-Antibody-11H9-Immunocytochemistry-Immunofluorescence-NB200-540-img0002.jpg" alt="Immunocytochemistry/ Immunofluorescence Complement C3 Antibody (11H9) - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/complement-c3-antibody-11h9_nb200-540" title="Immunohistochemistry-Paraffin: Complement C3 Antibody (11H9) [NB200-540] - Complement C3 protein in a FFPE tissue section of mouse lymph node using 1:100 dilution of Complement C3 antibody (clone 11H9) NB200-540. This representative photomicrograph shows a membrane-cytoplasmic immunopositivity in non-germinal center cells, and few cells developed an intense staining for this target protein." class="cust_viewed_5" > <img loading="lazy" src="https://images.novusbio.com/images/Complement-C3-Antibody-11H9-Immunohistochemistry-Paraffin-NB200-540-img0003.jpg" alt="Immunohistochemistry-Paraffin Complement C3 Antibody (11H9) - BSA Free" class="big_thumb" /> </a> </div></div><div id="ss_next_cav5" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-5" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/complement-c3-antibody-11h9_nb200-540#ReviewsSection"> <div class="sprite_5Stars"></div> (2 Reviews</a>) </div> <div class="tiny"> <a href="/products/complement-c3-antibody-11h9_nb200-540#PublicationSection"> <div class="sprite_pubBook"></div> (31 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Ec, Mu</div><div class="tiny"><strong>Applications:</strong> CyTOF-ready, Flow-IC, Flow, IA, ICC/IF, IHC, IHC-Fr, IHC-P, IP</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NB600-607"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/tor-mtor-antibody_nb600-607" style="overflow: hidden; width: 280px;" title="TOR/mTOR [p Ser2448] Antibody">TOR/mTOR [p<br> Ser2448] Antibody</a>    </div><div class="sub-header">NB600-607</div> <div class="images_customers"><div id="ss_prev_cav6" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-6" data-cycle-prev="#ss_prev_cav6" data-cycle-next="#ss_next_cav6" data-cycle-slides="div.big_thumb_cust_container" data-index=6 ><div class="big_thumb_cust_container"> <a href="/products/tor-mtor-antibody_nb600-607" title="Immunohistochemistry-Paraffin: TOR/mTOR [p Ser2448] Antibody [NB600-607] - Brown arrow= IBa1 positive cells, Green arrow= mTOR positive cells, Black arrow= mTOR and IBA1 positive cells. IHC-P Image submitted by a verified customer review." class="cust_viewed_6" > <img loading="lazy" src="https://images.novusbio.com/images/TOR-mTOR-[p-Ser2448]-Antibody-Immunohistochemistry-Paraffin-NB600-607-img0005.jpg" alt="Immunohistochemistry-Paraffin TOR/mTOR [p Ser2448] Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/tor-mtor-antibody_nb600-607" title="Western Blot: TOR/mTOR [p Ser2448] Antibody [NB600-607] - Rapamycin reduces mTOR phosphorylation induced by TII. Whole-cell lysates were prepared from astrocytes activated with TII for 2 h. 10 nM Rapamycin was added at the beginning of the experiment and equal amounts of protein were analyzed by western blot for phosphorylated mTOR kinase (p-mTOR) (upper gel) and consequently for beta-actin (lower gel). Image collected and cropped by CiteAb from the following publication (https://jneuroinflammation.biomedcentral.com/articles/10.1186/1742-2094-8-1), licensed under a CC-BY license." class="cust_viewed_6" > <img loading="lazy" src="https://images.novusbio.com/images/TOR-mTOR-[p-Ser2448]-Antibody-Western-Blot-NB600-607-img0006.jpg" alt="Western Blot TOR/mTOR [p Ser2448] Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/tor-mtor-antibody_nb600-607" title="TOR/mTOR [p Ser2448] Antibody [NB600-607]" class="cust_viewed_6" > <img loading="lazy" src="https://images.novusbio.com/images/TOR-mTOR-[p-Ser2448]-Antibody-N-A-NB600-607-img0008.jpg" alt="Data TOR/mTOR [p Ser2448] Antibody" class="big_thumb" /> </a> </div></div><div id="ss_next_cav6" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-6" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/tor-mtor-antibody_nb600-607#ReviewsSection"> <div class="sprite_4Stars"></div> (2 Reviews</a>) </div> <div class="tiny"> <a href="/products/tor-mtor-antibody_nb600-607#PublicationSection"> <div class="sprite_pubBook"></div> (9 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu, Rt</div><div class="tiny"><strong>Applications:</strong> ELISA, IHC, IHC-P, WB</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="H00008878-M01"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/p62-sqstm1-antibody-2c11_h00008878-m01" style="overflow: hidden; width: 280px;" title="p62/SQSTM1 Antibody (2C11)">p62/SQSTM1<br> Antibody (2C11)</a>    </div><div class="sub-header">H00008878-M01</div> <div class="images_customers"><div id="ss_prev_cav7" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-7" data-cycle-prev="#ss_prev_cav7" data-cycle-next="#ss_next_cav7" data-cycle-slides="div.big_thumb_cust_container" data-index=7 ><div class="big_thumb_cust_container"> <a href="/products/p62-sqstm1-antibody-2c11_h00008878-m01" title="Immunocytochemistry/Immunofluorescence: p62/SQSTM1 Antibody (2C11) [H00008878-M01] - Analysis of p62 in SH-SY5Y cells using anti-p62/SQSTM1 antibody. Red - p62 puncta; Blue - nuclear DAPI; Green - Cytoskeleton. Image from verified customer review." class="cust_viewed_7" > <img loading="lazy" src="https://images.novusbio.com/images/p62-SQSTM1-Antibody-2C11-Immunocytochemistry-Immunofluorescence-H00008878-M01-img0010.jpg" alt="Immunocytochemistry/ Immunofluorescence p62/SQSTM1 Antibody (2C11)" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/p62-sqstm1-antibody-2c11_h00008878-m01" title="Western Blot: p62/SQSTM1 Antibody (2C11) [H00008878-M01] - Confirmation of loss of hepatic ATG7 protein and a phenotype of hepatic autophagy inactivation. Fourth ug of liver protein were loaded on 4-20% gradient Tris-Glycine gels and subsequently immunoblotted with antibodies against ATG7, p62 and LC3. Blots were visualized with G:BOX Chemi XRQ (SynGene). Representative immunoblots are shown for WT and KO mice. Full-length immunoblots are presented in Supplementary Figure S1. ATG7: autophagy-related protein 7; p62: sequestosome 1; LC3: microtubule-associated protein 1 light chain 3; WT: Mx1-Cre-Atg7F/F mouse; KO: Mx1-Cre+Atg7F/F mouse. Image collected and cropped by CiteAb from the following publication (https://www.nature.com/articles/s41598-017-14405-w), licensed under a CC-BY license." class="cust_viewed_7" > <img loading="lazy" src="https://images.novusbio.com/images/p62-SQSTM1-Antibody-2C11-Western-Blot-H00008878-M01-img0015.jpg" alt="Western Blot p62/SQSTM1 Antibody (2C11)" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/p62-sqstm1-antibody-2c11_h00008878-m01" title="Western Blot: p62/SQSTM1 Antibody (2C11) [H00008878-M01] - Disruption of the VANGL2-p62/SQSTM1 interaction in breast cancer cells. Soft agar colony formation of T47D cells overexpressing GFP, GFP-VANGL2 and GFP-p62/SQSTM1 (right). Protein expression was revealed with anti-p62/SQSTM1, anti-VANGL2 and anti-GFP antibodies by western blot analysis (right). In anti-GFP blot, the arrowhead indicates position of co-migrating GFP-VANGL2 and GFP-p62/SQSTM1 and the asterisk pinpoints GFP alone. Error bars represent mean+/-s.d. (n=3). Image collected and cropped by CiteAb from the following publication (https://www.nature.com/doifinder/10.1038/ncomms10318), licensed under a CC-BY license." class="cust_viewed_7" > <img loading="lazy" src="https://images.novusbio.com/images/p62-SQSTM1-Antibody-2C11-Western-Blot-H00008878-M01-img0014.jpg" alt="Western Blot p62/SQSTM1 Antibody (2C11)" class="big_thumb" /> </a> </div></div><div id="ss_next_cav7" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-7" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/p62-sqstm1-antibody-2c11_h00008878-m01#ReviewsSection"> <div class="sprite_5Stars"></div> (9 Reviews</a>) </div> <div class="tiny"> <a href="/products/p62-sqstm1-antibody-2c11_h00008878-m01#PublicationSection"> <div class="sprite_pubBook"></div> (412 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Bv, Ha, Hu, Mu, Rb, Rt</div><div class="tiny"><strong>Applications:</strong> ELISA, ICC/IF, IHC, IHC-Fr, IHC-P, IP, WB</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NB100-56098"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/bcl-2-antibody_nb100-56098" style="overflow: hidden; width: 280px;" title="Bcl-2 Antibody">Bcl-2 Antibody</a>    </div><div class="sub-header">NB100-56098</div> <div class="images_customers"><div id="ss_prev_cav8" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-8" data-cycle-prev="#ss_prev_cav8" data-cycle-next="#ss_next_cav8" data-cycle-slides="div.big_thumb_cust_container" data-index=8 ><div class="big_thumb_cust_container"> <a href="/products/bcl-2-antibody_nb100-56098" title="Western Blot: Bcl-2 Antibody [NB100-56098] - EA reduced MPP+-induced dopaminergic neuronal apoptosis by increasing BDNF (brain-derived neurotrophic factor) expression and further Akt phosphorylation in the rat substantia nigra. Eight days after MPP+ administration, our Western blot results (MAB7566) show that MPP+ treatment reduced tyrosine hydroxylase and Bcl-2 expression in the ipsilateral side of the rat substantia nigra (SN), but not in the contralateral side. EA stimulation (50 Hz) enhanced mature BDNF, tyrosine hydroxylase, and Bcl-2 expression in the MPP+-treated ipsilateral side. Image collected and cropped by CiteAb from the following publication (https://www.mdpi.com/1422-0067/18/9/1846), licensed under a CC-BY license." class="cust_viewed_8" > <img loading="lazy" src="https://images.novusbio.com/images/Bcl-2-Antibody-Western-Blot-NB100-56098-img0012.jpg" alt="Western Blot Bcl-2 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/bcl-2-antibody_nb100-56098" title="Western Blot: Bcl-2 Antibody [NB100-56098] - Analysis of Bcl-2 in whole cell lysate from Daoy cells. Cells were transfected with (1) scrambled control siRNA or (2) Bcl-2 siRNA. Image from verified customer review." class="cust_viewed_8" > <img loading="lazy" src="https://images.novusbio.com/images/Bcl-2-Antibody-Western-Blot-NB100-56098-img0004.jpg" alt="Western Blot Bcl-2 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/bcl-2-antibody_nb100-56098" title="Western Blot: Bcl-2 Antibody [NB100-56098] - Analysis of Bcl-2 using this antibody at 1:2000, 20 ug/protein was loaded per lane. (1) Human Jurkat T cells. (2) Human RS11 lymphoma cells. (3-6) Human breast cancer cases. Patient sample in lane 5 lacked detectible Bcl-2 expression." class="cust_viewed_8" > <img loading="lazy" src="https://images.novusbio.com/images/Bcl-2-Antibody-Western-Blot-NB100-56098-img0005.jpg" alt="Western Blot Bcl-2 Antibody" class="big_thumb" /> </a> </div></div><div id="ss_next_cav8" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-8" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/bcl-2-antibody_nb100-56098#ReviewsSection"> <div class="sprite_5Stars"></div> (2 Reviews</a>) </div> <div class="tiny"> <a href="/products/bcl-2-antibody_nb100-56098#PublicationSection"> <div class="sprite_pubBook"></div> (26 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Ca, Hu, Mu, Rt</div><div class="tiny"><strong>Applications:</strong> IHC, IHC-P, IP, WB</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NB100-1533"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/pomc-antibody_nb100-1533" style="overflow: hidden; width: 280px;" title="POMC Antibody">POMC Antibody</a>    </div><div class="sub-header">NB100-1533</div> <div class="images_customers"><div id="ss_prev_cav9" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-9" data-cycle-prev="#ss_prev_cav9" data-cycle-next="#ss_next_cav9" data-cycle-slides="div.big_thumb_cust_container" data-index=9 ><div class="big_thumb_cust_container"> <a href="/products/pomc-antibody_nb100-1533" title="Flow Cytometry: POMC Antibody [NB100-1533] - Flow cytometric analysis of paraformaldehyde fixed A431 cells (blue line), permeabilized with 0.5% Triton. Primary incubation 1hr (10 ug/mL) followed by Alexa Fluor 488 secondary antibody (1 ug/mL). IgG control: Unimmunized goat IgG (black line) followed by Alexa Fluor 488 secondary antibody." class="cust_viewed_9" > <img loading="lazy" src="https://images.novusbio.com/images/POMC-Antibody-Flow-Cytometry-NB100-1533-img0006.jpg" alt="Flow Cytometry POMC Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/pomc-antibody_nb100-1533" title="Immunohistochemistry: POMC Antibody [NB100-1533] - Representative immunofluorescence images of (B) POMC as a prohormone (n = 5-6 each) in the ARC of mice approximately 5 to 10 weeks of age. Image collected and cropped by CiteAb from the following publication (jci.org/articles/view/96420), licensed under a CC-BY license." class="cust_viewed_9" > <img loading="lazy" src="https://images.novusbio.com/images/POMC-Antibody-Immunohistochemistry-NB100-1533-img0007.jpg" alt="Immunohistochemistry POMC Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/pomc-antibody_nb100-1533" title="Immunohistochemistry: POMC Antibody [NB100-1533] - Representative confocal images of POMC in POMC-transfected WT and Sel1L-/- N2a cells. White arrows point to POMC-containing secretory granules, while yellow arrows point to perinuclear POMC. KDEL marks the ER. Representative data from at least 2 independent experiments are shown. Image collected and cropped by CiteAb from the following publication (jci.org/articles/view/96420), licensed under a CC-BY license." class="cust_viewed_9" > <img loading="lazy" src="https://images.novusbio.com/images/POMC-Antibody-Immunohistochemistry-NB100-1533-img0008.jpg" alt="Immunohistochemistry POMC Antibody" class="big_thumb" /> </a> </div></div><div id="ss_next_cav9" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-9" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/pomc-antibody_nb100-1533#PublicationSection"> <div class="sprite_pubBook"></div> (10 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu, Mu, Po, Rt, Sh</div><div class="tiny"><strong>Applications:</strong> Flow, ICC/IF, IHC, IHC-P, PEP-ELISA, WB</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="AF835"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/caspase-3-antibody_af835" style="overflow: hidden; width: 280px;" title="Caspase-3 Antibody [Unconjugated] - Active">Caspase-3 Antibody<br> [Unconjugated] - Acti ...</a>    </div><div class="sub-header">AF835</div> <div class="images_customers"><div id="ss_prev_cav10" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-10" data-cycle-prev="#ss_prev_cav10" data-cycle-next="#ss_next_cav10" data-cycle-slides="div.big_thumb_cust_container" data-index=10 ><div class="big_thumb_cust_container"> <a href="/products/caspase-3-antibody_af835" title="Caspase&amp;#x2011;3 was detected in immersion fixed anti-FAS treated Jurkat human acute T cell leukemia cell line using 0.3 &amp;micro;g/mL Human/Mouse Active Caspase&amp;#x2011;3 Antigen Affinity-purified Polyclonal Antibody (Catalog # AF835) for 3 hours at room temperature. Cells were stained (red) and counterstained (green). View our protocol for Fluorescent ICC Staining of Cells on Coverslips." class="cust_viewed_10" > <img loading="lazy" src="https://images.novusbio.com/images2/Caspase-3_AF835_Immunocytochemistry_6532.jpg" alt="Immunocytochemistry Caspase-3 Antibody [Unconjugated] - Active" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/caspase-3-antibody_af835" title=" Caspase‑3 was detected in immersion fixed paraffin-embedded sections of human colon cancer tissue using Rabbit Anti-Human/Mouse Active Caspase‑3 Antigen Affinity-purified Polyclonal Antibody (Catalog # AF835) at 1&amp;nbsp;µg/mL for 1 hour at room temperature followed by incubation with the Anti-Rabbit IgG VisUCyte&amp;#8482; HRP Polymer Antibody (Catalog&amp;nbsp;# VC003). Before incubation with the primary antibody, tissue was subjected to heat-induced epitope retrieval using Antigen Retrieval Reagent-Basic (Catalog # CTS013). Tissue was stained using DAB (brown) and counterstained with hematoxylin (blue). Specific staining was localized to cytoplasm. View our protocol for IHC Staining with VisUCyte HRP Polymer Detection Reagents. " class="cust_viewed_10" > <img loading="lazy" src="https://images.novusbio.com/images2/Caspase3_AF835_Immunohistochemistry_22976.jpg" alt="Immunohistochemistry Caspase-3 Antibody [Unconjugated] - Active" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/caspase-3-antibody_af835" title="Caspase-3 was detected in immersion fixed Jurkat human acute T cell leukemia cell line stimulated with staurosporin using Human/Mouse Active Caspase-3 Antigen Affinity-purified Polyclonal Antibody (Catalog # AF835) at 10 µg/mL for 3 hours at room temperature. Cells were stained using the NorthernLights&amp;#8482; 557-conjugated Anti-Rabbit IgG Secondary Antibody (yellow; Catalog # NL004) and counterstained with DAPI (blue). View our protocol for Fluorescent ICC Staining of Cells on Coverslips." class="cust_viewed_10" > <img loading="lazy" src="https://images.novusbio.com/images2/Caspase-3_AF835_Immunocytochemistry_9340.jpg" alt="Immunocytochemistry Caspase-3 Antibody [Unconjugated] - Active" class="big_thumb" /> </a> </div></div><div id="ss_next_cav10" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-10" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/caspase-3-antibody_af835#ReviewsSection"> <div class="sprite_5Stars"></div> (7 Reviews</a>) </div> <div class="tiny"> <a href="/products/caspase-3-antibody_af835#PublicationSection"> <div class="sprite_pubBook"></div> (388 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu, Mu</div><div class="tiny"><strong>Applications:</strong> ICC, IHC</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="H00002965-M01"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/gtf2h1-antibody-1f12-1b5_h00002965-m01" style="overflow: hidden; width: 280px;" title="GTF2H1 Antibody (1F12-1B5)">GTF2H1 Antibody<br> (1F12-1B5)</a>    </div><div class="sub-header">H00002965-M01</div> <div class="images_customers"><div id="ss_prev_cav11" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-11" data-cycle-prev="#ss_prev_cav11" data-cycle-next="#ss_next_cav11" data-cycle-slides="div.big_thumb_cust_container" data-index=11 ><div class="big_thumb_cust_container"> <a href="/products/gtf2h1-antibody-1f12-1b5_h00002965-m01" title="Western Blot: GTF2H1 Antibody (1F12-1B5) [H00002965-M01] - Analysis of GTF2H1 expression in transfected 293T cell line by GTF2H1 monoclonal antibody (M01), clone 1F12-1B5.Lane 1: GTF2H1 transfected lysate(62 KDa).Lane 2: Non-transfected lysate." class="cust_viewed_11" > <img loading="lazy" src="https://images.novusbio.com/images/GTF2H1-Antibody-1F12-1B5-Western-Blot-H00002965-M01-img0016.jpg" alt="Western Blot GTF2H1 Antibody (1F12-1B5)" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/gtf2h1-antibody-1f12-1b5_h00002965-m01" title="Immunocytochemistry/Immunofluorescence: GTF2H1 Antibody (1F12-1B5) [H00002965-M01] - Analysis of monoclonal antibody to GTF2H1 on HeLa cell. Antibody concentration 10 ug/ml." class="cust_viewed_11" > <img loading="lazy" src="https://images.novusbio.com/images/GTF2H1-Antibody-1F12-1B5-Immunocytochemistry-Immunofluorescence-H00002965-M01-img0009.jpg" alt="Immunocytochemistry/ Immunofluorescence GTF2H1 Antibody (1F12-1B5)" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/gtf2h1-antibody-1f12-1b5_h00002965-m01" title="Immunohistochemistry-Paraffin: GTF2H1 Antibody (1F12-1B5) [H00002965-M01] - Analysis of monoclonal antibody to GTF2H1 on formalin-fixed paraffin-embedded human testis tissue.Antibody concentration 5 ug/ml." class="cust_viewed_11" > <img loading="lazy" src="https://images.novusbio.com/images/GTF2H1-Antibody-1F12-1B5-Immunohistochemistry-Paraffin-H00002965-M01-img0011.jpg" alt="Immunohistochemistry-Paraffin GTF2H1 Antibody (1F12-1B5)" class="big_thumb" /> </a> </div></div><div id="ss_next_cav11" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-11" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/gtf2h1-antibody-1f12-1b5_h00002965-m01#PublicationSection"> <div class="sprite_pubBook"></div> (2 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu</div><div class="tiny"><strong>Applications:</strong> ELISA, ICC/IF, IHC, IHC-P, KD, S-ELISA, WB</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="210-TA"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/recombinant-human-tnf-alpha-protein_210-ta" style="overflow: hidden; width: 280px;" title="TNF-alpha [Unconjugated]">TNF-alpha<br> [Unconjugated]</a>    </div><div class="sub-header">210-TA</div> <div class="images_customers"><div id="ss_prev_cav12" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-12" data-cycle-prev="#ss_prev_cav12" data-cycle-next="#ss_next_cav12" data-cycle-slides="div.big_thumb_cust_container" data-index=12 ><div class="big_thumb_cust_container"> <a href="/products/recombinant-human-tnf-alpha-protein_210-ta" title="1 µg/lane of Recombinant Human TNF-alpha was resolved by SDS-PAGE with silver staining, under reducing (R) conditions, showing a band at 17 kDa." class="cust_viewed_12" > <img loading="lazy" src="https://images.novusbio.com/images2/TNF-alpha_210-TA_256.jpg" alt="SDS-PAGE TNF-alpha [Unconjugated]" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/recombinant-human-tnf-alpha-protein_210-ta" title="Recombinant Human TNF-alpha (Catalog # 210‑TA) induces cytotoxicity in the L-929 mouse fibroblast cell line in the presence of the metabolic inhibitor actinomycin D. The ED50 for this effect is 25‑100 pg/mL." class="cust_viewed_12" > <img loading="lazy" src="https://images.novusbio.com/images2/TNFalpha_210TA_1658.jpg" alt="Bioactivity TNF-alpha [Unconjugated]" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/recombinant-human-tnf-alpha-protein_210-ta" title="Recombinant Human TNF-alpha (Catalog # 210-TA) has a molecular weight (MW) of 53.1 kDa as analyzed by SEC-MALS, suggesting that this protein is a homotrimer. MW may differ from predicted MW due to post-translational modifications (PTMs) present (i.e. Glycosylation)." class="cust_viewed_12" > <img loading="lazy" src="https://images.novusbio.com/images/210-ta_recombinant-human-tnf-alpha-protein-sec-mals-35202312244..jpg" alt="SEC-MALS TNF-alpha [Unconjugated]" class="big_thumb" /> </a> </div></div><div id="ss_next_cav12" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-12" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/recombinant-human-tnf-alpha-protein_210-ta#ReviewsSection"> <div class="sprite_5Stars"></div> (3 Reviews</a>) </div> <div class="tiny"> <a href="/products/recombinant-human-tnf-alpha-protein_210-ta#PublicationSection"> <div class="sprite_pubBook"></div> (811 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu</div><div class="tiny"><strong>Applications:</strong> BA</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NBP1-31381"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/nup62-antibody_nbp1-31381" style="overflow: hidden; width: 280px;" title="NUP62 Antibody">NUP62 Antibody</a>    </div><div class="sub-header">NBP1-31381</div> <div class="images_customers"><div id="ss_prev_cav13" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-13" data-cycle-prev="#ss_prev_cav13" data-cycle-next="#ss_next_cav13" data-cycle-slides="div.big_thumb_cust_container" data-index=13 ><div class="big_thumb_cust_container"> <a href="/products/nup62-antibody_nbp1-31381" title="Western Blot: NUP62 Antibody [NBP1-31381] - Whole cell extracts (30 ug) was separated by 10% SDS-PAGE, and blotted with Nucleoporin p62 antibody diluted by 1:5000. The HRP-conjugated anti-rabbit IgG antibody (NBP2-19301) was used to detect the primary antibody." class="cust_viewed_13" > <img loading="lazy" src="https://images.novusbio.com/images/NUP62-Antibody-Western-Blot-NBP1-31381-img0015.jpg" alt="Western Blot NUP62 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/nup62-antibody_nbp1-31381" title="Immunocytochemistry/Immunofluorescence: Nucleoporin p62 Antibody [NBP1-31381] - Sample: HeLa cells were fixed in 4% paraformaldehyde at RT for 15 min. Green: Nucleoporin p62 protein stained by Nucleoporin p62 antibody diluted at 1:750. Blue: Hoechst 33342 staining. Scale bar = 10 um." class="cust_viewed_13" > <img loading="lazy" src="https://images.novusbio.com/images/Nucleoporin-p62-Antibody-Immunocytochemistry-Immunofluorescence-NBP1-31381-img0012.jpg" alt="Immunocytochemistry/ Immunofluorescence NUP62 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/nup62-antibody_nbp1-31381" title="Western Blot: Nucleoporin p62 Antibody [NBP1-31381] - PC-12 whole cell lysate (30 ug) stained wtih Nucleoporin p62 Antibody diluted at 1:5000." class="cust_viewed_13" > <img loading="lazy" src="https://images.novusbio.com/images/Nucleoporin-p62-Antibody-Western-Blot-NBP1-31381-img0002.jpg" alt="Western Blot NUP62 Antibody" class="big_thumb" /> </a> </div></div><div id="ss_next_cav13" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-13" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/nup62-antibody_nbp1-31381#PublicationSection"> <div class="sprite_pubBook"></div> (4 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Hu, Mu, Rt</div><div class="tiny"><strong>Applications:</strong> ICC/IF, IHC, IHC-P, IP, WB</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NBP2-37399"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/dynactin-4-antibody-3g9d7_nbp2-37399" style="overflow: hidden; width: 280px;" title="dynactin 4 Antibody (3G9D7) - BSA Free">dynactin 4<br> Antibody (3G9D7) - BS</a>    </div><div class="sub-header">NBP2-37399</div> <div class="images_customers"><div id="ss_prev_cav14" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-14" data-cycle-prev="#ss_prev_cav14" data-cycle-next="#ss_next_cav14" data-cycle-slides="div.big_thumb_cust_container" data-index=14 ><div class="big_thumb_cust_container"> <a href="/products/dynactin-4-antibody-3g9d7_nbp2-37399" title="ELISA: dynactin 4 Antibody (3G9D7) [NBP2-37399] - Red: Control Antigen (100ng); Purple: Antigen (10ng); Green: Antigen (50ng); Blue: Antigen (100ng);" class="cust_viewed_14" > <img loading="lazy" src="https://images.novusbio.com/images/dynactin-4-Antibody-3G9D7-ELISA-NBP2-37399-img0001.jpg" alt="ELISA dynactin 4 Antibody (3G9D7) - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/dynactin-4-antibody-3g9d7_nbp2-37399" title="Western Blot: dynactin 4 Antibody (3G9D7) [NBP2-37399] - Western blot analysis using DCTN4 mAb against human DCTN4 recombinant protein. (Expected MW is 53.2 kDa)" class="cust_viewed_14" > <img loading="lazy" src="https://images.novusbio.com/images/dynactin-4-Antibody-3G9D7-Western-Blot-NBP2-37399-img0002.jpg" alt="Western Blot dynactin 4 Antibody (3G9D7) - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/dynactin-4-antibody-3g9d7_nbp2-37399" title="Western Blot: dynactin 4 Antibody (3G9D7) [NBP2-37399] - Western blot analysis using DCTN4 mAb against HEK293 (1) and DCTN4 (AA: ***)-hIgGFc transfected HEK293 (2) cell lysate." class="cust_viewed_14" > <img loading="lazy" src="https://images.novusbio.com/images/dynactin-4-Antibody-3G9D7-Western-Blot-NBP2-37399-img0003.jpg" alt="Western Blot dynactin 4 Antibody (3G9D7) - BSA Free" class="big_thumb" /> </a> </div></div><div id="ss_next_cav14" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-14" class="cycle-circle-pager"></div></div> <div class="ds_info"><div class="tiny"><strong>Species:</strong> Hu</div><div class="tiny"><strong>Applications:</strong> CyTOF-ready, ELISA, Flow, ICC/IF, IHC, IHC-P, WB</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NBP2-02627"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/imp2-igf2bp2-antibody-oti3f9_nbp2-02627" style="overflow: hidden; width: 280px;" title="IMP2/IGF2BP2 Antibody (OTI3F9)">IMP2/IGF2BP2<br> Antibody (OTI3F9)</a>    </div><div class="sub-header">NBP2-02627</div> <div class="images_customers"><div id="ss_prev_cav15" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-15" data-cycle-prev="#ss_prev_cav15" data-cycle-next="#ss_next_cav15" data-cycle-slides="div.big_thumb_cust_container" data-index=15 ><div class="big_thumb_cust_container"> <a href="/products/imp2-igf2bp2-antibody-oti3f9_nbp2-02627" title="Flow Cytometry: IGF2BP2 Antibody (3F9) [NBP2-02627] - Analysis of Jurkat cells, using anti-IGF2BP2 antibody, (Red), compared to a nonspecific negative control antibody (Blue)." class="cust_viewed_15" > <img loading="lazy" src="https://images.novusbio.com/images/IGF2BP2-Antibody-3F9-Flow-Cytometry-NBP2-02627-img0001.jpg" alt="Flow Cytometry IMP2/IGF2BP2 Antibody (OTI3F9)" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/imp2-igf2bp2-antibody-oti3f9_nbp2-02627" title="Flow Cytometry: IGF2BP2 Antibody (3F9) [NBP2-02627] - HEK293T cells transfected with either overexpression plasmid (Red) or empty vector control plasmid (Blue) were immunostained by anti-IGF2BP2 antibody, and then analyzed by flow cytometry." class="cust_viewed_15" > <img loading="lazy" src="https://images.novusbio.com/images/IGF2BP2-Antibody-3F9-Flow-Cytometry-NBP2-02627-img0002.jpg" alt="Flow Cytometry IMP2/IGF2BP2 Antibody (OTI3F9)" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/imp2-igf2bp2-antibody-oti3f9_nbp2-02627" title="Western Blot: IGF2BP2 Antibody (3F9) [NBP2-02627] - HEK293T cells were transfected with the pCMV6-ENTRY control (Left lane) or pCMV6-ENTRY IGF2BP2 (Right lane) cDNA for 48 hrs and lysed. Equivalent amounts of cell lysates (5 ug per lane) were separated by SDS-PAGE and immunoblotted with anti-IGF2BP2." class="cust_viewed_15" > <img loading="lazy" src="https://images.novusbio.com/images/IGF2BP2-Antibody-3F9-Western-Blot-NBP2-02627-img0003.jpg" alt="Western Blot IMP2/IGF2BP2 Antibody (OTI3F9)" class="big_thumb" /> </a> </div></div><div id="ss_next_cav15" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-15" class="cycle-circle-pager"></div></div> <div class="ds_info"><div class="tiny"><strong>Species:</strong> Ca, Hu, Pm, Mu, Rt</div><div class="tiny"><strong>Applications:</strong> Flow, ICC/IF, IHC, IHC-P, WB</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NBP1-19151"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/sam68-antibody_nbp1-19151" style="overflow: hidden; width: 280px;" title="SAM68 Antibody">SAM68 Antibody</a>    </div><div class="sub-header">NBP1-19151</div> <div class="images_customers"><div id="ss_prev_cav16" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-16" data-cycle-prev="#ss_prev_cav16" data-cycle-next="#ss_next_cav16" data-cycle-slides="div.big_thumb_cust_container" data-index=16 ><div class="big_thumb_cust_container"> <a href="/products/sam68-antibody_nbp1-19151" title="Immunohistochemistry-Paraffin: SAM68 Antibody [NBP1-19151] - Section of human prostate carcinoma. Antibody: Affinity purified rabbit anti- SAM68 used at a dilution of 1:1,000 (0.2 ug/ml). Detection: DAB" class="cust_viewed_16" > <img loading="lazy" src="https://images.novusbio.com/images/SAM68-Antibody-Immunohistochemistry-NBP1-19151-img0014.jpg" alt="Immunohistochemistry-Paraffin SAM68 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/sam68-antibody_nbp1-19151" title="Western Blot: SAM68 Antibody [NBP1-19151] - Whole cell lysate from HeLa cells. SAM68 was also immunoprecipitated by rabbit anti-SAM68 antibodies NBP1-19152 and NBP1-19153." class="cust_viewed_16" > <img loading="lazy" src="https://images.novusbio.com/images/SAM68-Antibody-Western-Blot-NBP1-19151-img0010.jpg" alt="Western Blot SAM68 Antibody" class="big_thumb" /> </a> </div></div><div id="ss_next_cav16" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-16" class="cycle-circle-pager"></div></div> <div class="ds_info"> <div class="tiny"> <a href="/products/sam68-antibody_nbp1-19151#ReviewsSection"> <div class="sprite_3Stars"></div> (1 Review</a>) </div> <div class="tiny"> <a href="/products/sam68-antibody_nbp1-19151#PublicationSection"> <div class="sprite_pubBook"></div> (2 Publications</a>) </div><div class="tiny"><strong>Species:</strong> Bv, Hu, Ma</div><div class="tiny"><strong>Applications:</strong> ICC/IF, IHC, IHC-P, IP, WB</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NBP2-82090"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/gate-16-gabarapl2-antibody_nbp2-82090" style="overflow: hidden; width: 280px;" title="GATE-16/GABARAPL2 Antibody - BSA Free">GATE-16/GABARAPL2<br> Antibody - BSA Free</a>    </div><div class="sub-header">NBP2-82090</div> <div class="images_customers"><div id="ss_prev_cav17" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-17" data-cycle-prev="#ss_prev_cav17" data-cycle-next="#ss_next_cav17" data-cycle-slides="div.big_thumb_cust_container" data-index=17 ><div class="big_thumb_cust_container"> <a href="/products/gate-16-gabarapl2-antibody_nbp2-82090" title="Western Blot: GATE-16/GABARAPL2 Antibody [NBP2-82090] - Analysis of GATE-16/GABARAPL2 in human brain tissue lysate with GATE-16/GABARAPL2 antibody at (A) 1 and (B) 2 ug/ml." class="cust_viewed_17" > <img loading="lazy" src="https://images.novusbio.com/images/GATE-16-GABARAPL2-Antibody-Western-Blot-NBP2-82090-img0001.jpg" alt="Western Blot GATE-16/GABARAPL2 Antibody - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/gate-16-gabarapl2-antibody_nbp2-82090" title="Immunohistochemistry-Paraffin: GATE-16/GABARAPL2 Antibody [NBP2-82090] - Rat brain tissue with GATE-16/GABARAPL2 antibody at 5 ug/mL." class="cust_viewed_17" > <img loading="lazy" src="https://images.novusbio.com/images/GATE-16-GABARAPL2-Antibody-Immunohistochemistry-NBP2-82090-img0002.jpg" alt="Immunohistochemistry-Paraffin GATE-16/GABARAPL2 Antibody - BSA Free" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/gate-16-gabarapl2-antibody_nbp2-82090" title="Immunocytochemistry/Immunofluorescence: GATE-16/GABARAPL2 Antibody [NBP2-82090] - Immunofluorescence of GATE-16/GABARAPL2 in rat brain tissue with GATE-16/GABARAPL2 antibody at 20 ug/mL." class="cust_viewed_17" > <img loading="lazy" src="https://images.novusbio.com/images/GATE-16-GABARAPL2-Antibody-Immunocytochemistry-Immunofluorescence-NBP2-82090-img0003.jpg" alt="Immunocytochemistry/ Immunofluorescence GATE-16/GABARAPL2 Antibody - BSA Free" class="big_thumb" /> </a> </div></div><div id="ss_next_cav17" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-17" class="cycle-circle-pager"></div></div> <div class="ds_info"><div class="tiny"><strong>Species:</strong> Hu, Mu, Rt</div><div class="tiny"><strong>Applications:</strong> ELISA, ICC/IF, IHC, IHC-P, WB</div> </div> </div> </div></div><div class="ds_cav_group"> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NBP1-55202"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/gabarapl1-antibody_nbp1-55202" style="overflow: hidden; width: 280px;" title="GABARAPL1 Antibody">GABARAPL1 Antibody</a>    </div><div class="sub-header">NBP1-55202</div> <div class="images_customers"><div id="ss_prev_cav18" class="cycle-pager"> <div class="pager_left_on"></div></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-18" data-cycle-prev="#ss_prev_cav18" data-cycle-next="#ss_next_cav18" data-cycle-slides="div.big_thumb_cust_container" data-index=18 ><div class="big_thumb_cust_container"> <a href="/products/gabarapl1-antibody_nbp1-55202" title="Immunohistochemistry-Paraffin: GABARAPL1 Antibody [NBP1-55202] - Human Brain lysate tissue at an Antibody concentration of 5.0 ug/ml using anti-GABARAPL1 Antibody (NBP1-55202)." class="cust_viewed_18" > <img loading="lazy" src="https://images.novusbio.com/images/GABARAPL1-Antibody-Immunohistochemistry-Paraffin-NBP1-55202-img0006.jpg" alt="Immunohistochemistry-Paraffin GABARAPL1 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/gabarapl1-antibody_nbp1-55202" title="Western Blot: GABARAPL1 Antibody [NBP1-55202] - Hela Whole Cell lysates, Antibody Dilution: 1.0 ug/ml." class="cust_viewed_18" > <img loading="lazy" src="https://images.novusbio.com/images/GABARAPL1-Antibody-Western-Blot-NBP1-55202-img0005.jpg" alt="Western Blot GABARAPL1 Antibody" class="big_thumb" /> </a> </div><div class="big_thumb_cust_container"> <a href="/products/gabarapl1-antibody_nbp1-55202" title="Western Blot: GABARAPL1 Antibody [NBP1-55202] - Transfected 293T tissue lysate at a concentration of 1ug/ml." class="cust_viewed_18" > <img loading="lazy" src="https://images.novusbio.com/images/GABARAPL1-Antibody-Western-Blot-NBP1-55202-img0001.jpg" alt="Western Blot GABARAPL1 Antibody" class="big_thumb" /> </a> </div></div><div id="ss_next_cav18" class="cycle-pager"><div class="pager_right_on"></div></div><div id="cycle-circle-pager-18" class="cycle-circle-pager"></div></div> <div class="ds_info"><div class="tiny"><strong>Species:</strong> Hu</div><div class="tiny"><strong>Applications:</strong> IHC, IHC-P, WB</div> </div> </div> </div> <div class="ds_cav_block"> <div class="ds_cav_upper" data-catnums="NB110-53818"> <div class="name"> <div class="flourish_left"></div> <div class="flourish_right"></div> <a href="/products/atg5-antibody_nb110-53818" style="overflow: hidden; width: 280px;" title="ATG5 Antibody - BSA Free">ATG5 Antibody -<br> BSA Free</a>    </div><div class="sub-header">NB110-53818</div> <div class="images_customers"><div class="one_image_l"></div><div class="cycle-slideshow" data-cycle-fx="fade" data-cycle-timeout="0" data-cycle-pager="#cycle-circle-pager-19" data-cycle-prev="#ss_prev_cav19" data-cycle-next="#ss_next_cav19" data-cycle-slides="div.big_thumb_cust_container" data-index=19 ><div class="big_thumb_cust_container"> <a href="/products/atg5-antibody_nb110-53818" title="ATG5 Antibody - BSA Free" class="cust_viewed_19"> <img loading="lazy" src="/sites/all/modules/enterprise-tech/et_datasheets/images/novus_guarantee.png" alt="ATG5 Antibody - BSA Free" title="ATG5 Antibody - BSA Free" class=" big_thumb" /> </a> </div></div><div class="one_image"></div><div class="one_image_11"></div></div> <div class="ds_info"><div class="tiny"><strong>Species:</strong> Hu, Mu, Rt, Po, Al, Bv, Dr, Fi, Gp, Pm, Xp, Ze</div><div class="tiny"><strong>Applications:</strong> WB, Simple Western, ELISA, Flow, Func, ICC/IF, IHC, IP, MS, WB, KD, KO</div> </div> </div> </div></div> </div><div id="cav_next"><div class="sprite_rightArrow"></div></div> <div class="clear"></div></div> <div class="ds_tab_content equalbottom" id="content_reviews-publications"> <a id="reviews-publications"></a><a id="PublicationSection"></a><h2 class="greyHead2">Publications for ATG5 Antibody (NB110-53818)(285)</h2><div class="ds_info"> <div>We have publications tested in 11 confirmed species: Human, Mouse, Rat, Alligator, Bovine, Drosophila, Drosophilia, Guinea Pig, Porcine, Primate, Zebrafish.<br /><br />We have publications tested in 17 applications: Block/Neutralize, ELISA, EM, FLOW, ICC/IF, IF/IHC, IHC-Fr, IHC-P, IP, Immunocytochemistry/ Immunofluorescence, Immunohistochemistry, In vivo assay, KO, PLA, RIA, WB, Western Blot.<br /><br /><div class="align-right"> <button class="greybutton btn_width" name="novusreview" onclick="window.location='/publications'"; >Submit a Publication</button><br /> </div> </div><div> <div class="filterParent"> <div class="publications_filterList" id="pubapp"> <div class="blueHead">Filter By Application</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="Block/Neutralize"> <div style="display:inline;">Block/Neutralize</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="ELISA"> <div style="display:inline;">ELISA</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="EM"> <div style="display:inline;">EM</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="FLOW"> <div style="display:inline;">FLOW</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="ICC/IF"> <div style="display:inline;">ICC/IF</div> (11)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="IF/IHC"> <div style="display:inline;">IF/IHC</div> (12)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="IHC-Fr"> <div style="display:inline;">IHC-Fr</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="IHC-P"> <div style="display:inline;">IHC-P</div> (9)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="IP"> <div style="display:inline;">IP</div> (2)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="Immunocytochemistry/ Immunofluorescence"> <div style="display:inline;">Immunocytochemistry/ Immunofluorescence</div> (2)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="Immunohistochemistry"> <div style="display:inline;">Immunohistochemistry</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="In vivo assay"> <div style="display:inline;">In vivo assay</div> (2)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="KO"> <div style="display:inline;">KO</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="PLA"> <div style="display:inline;">PLA</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="RIA"> <div style="display:inline;">RIA</div> (1)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="WB"> <div style="display:inline;">WB</div> (164)</div><div class="filter_line"> <input type="checkbox" value="application" class="publication_filterCheckbox" data-filter="Western Blot"> <div style="display:inline;">Western Blot</div> (6)</div><div class="filter_clear" data-type="publication" data-filter="application">All Applications</div></div> <div class="publications_filterList" id="pubspec"> <div class="blueHead">Filter By Species</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Human"> <div style="display:inline;">Human</div> (72)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Mouse"> <div style="display:inline;">Mouse</div> (86)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Rat"> <div style="display:inline;">Rat</div> (12)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Alligator"> <div style="display:inline;">Alligator</div> (1)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Bovine"> <div style="display:inline;">Bovine</div> (6)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Drosophila"> <div style="display:inline;">Drosophila</div> (2)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Drosophilia"> <div style="display:inline;">Drosophilia</div> (1)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Guinea Pig"> <div style="display:inline;">Guinea Pig</div> (1)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Porcine"> <div style="display:inline;">Porcine</div> (2)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Primate"> <div style="display:inline;">Primate</div> (2)</div><div class="filter_line"> <input type="checkbox" value="species" class="publication_filterCheckbox" data-filter="Zebrafish"> <div style="display:inline;">Zebrafish</div> (10)</div><div class="filter_clear" data-type="publication" data-filter="species">All Species</div></div> </div></div> <div class="clear"></div> <div id="publications_list">Showing Publications 1 - <span id="appcnt">10</span> of 285. <a class="pubs_showall">Show All 285 Publications.</a> <a class="pubs_collapse" style="display:none;">Collapse Publications.</a><table class="wide lightPad tablesorter" id="publications_list_table"> <thead> <tr> <th>Publications using NB110-53818</th> <th>Applications</th> <th>Species</th> </tr> </thead> <tbody><tr class="lined revfil firstten" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/38763444" target="_blank" rel="nofollow"> Maria Marchese, Sara Bernardi, Asahi Ogi, Rosario Licitra, Giada Silvi, Serena Mero, Daniele Galatolo, Nicola Gammaldi, Stefano Doccini, Gian Michele Ratto, Simona Rapposelli, Stephan C F Neuhauss, Jingjing Zang, Silvia Rocchiccioli, Elena Michelucci, Elisa Ceccherini, Filippo M Santorelli Targeting autophagy impairment improves the phenotype of a novel CLN8 zebrafish model. Neurobiology of disease 2024-05-17 [PMID: 38763444] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil firstten" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/38755466" target="_blank" rel="nofollow"> Zhou Jiang, Qianpei He, Jackson Wezeman, Martin Darvas, Warren Ladiges A cocktail of rapamycin, acarbose, and phenylbutyrate prevents age-related cognitive decline in mice by targeting multiple aging pathways. GeroScience 2024-05-16 [PMID: 38755466] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil firstten" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/38515365" target="_blank" rel="nofollow"> Hye Kyoung Sung, Jialing Tang, James Won Suk Jahng, Erfei Song, Yee Kwan Chan, Abdul Hadee Lone, Jeffrey Peterson, Ali Abdul‐Sater, Gary Sweeney Ischemia‐induced cardiac dysfunction is exacerbated in adiponectin‐knockout mice due to impaired autophagy flux Clinical and Translational Science 2024-03-22 [PMID: 38515365] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil firstten" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/38504290" target="_blank" rel="nofollow"> Rebecca Z. Fan, Carolina Sportelli, Yanhao Lai, Said S. Salehe, Jennifer R. Pinnell, Harry J. Brown, Jason R. Richardson, Shouqing Luo, Kim Tieu A partial Drp1 knockout improves autophagy flux independent of mitochondrial function Molecular Neurodegeneration 2024-03-19 [PMID: 38504290] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil firstten" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/38005886" target="_blank" rel="nofollow"> Bai L, Zhang R, Zheng H et al. Seneca Valley Virus Degrades STING via PERK and ATF6-Mediated Reticulophagy Viruses 2023-11-03 [PMID: 38005886] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil firstten" data-application="Immunohistochemistry, Western Blot" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/37759678" target="_blank" rel="nofollow"> Mart�nez-Gonz�lez J, Fern�ndez-Carbonell �, Cant� A et al. Sequences of Alterations in Inflammation and Autophagy Processes in Rd1 Mice Biomolecules 2023-08-22 [PMID: 37759678] (Immunohistochemistry, Western Blot) </a></td> <td valign="top">Immunohistochemistry, Western Blot</td> <td valign="top"></td> </tr><tr class="lined revfil firstten" data-application="IHC-Fr" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/37516958" target="_blank" rel="nofollow"> Keary KM, Gu QH, Chen J, Li Z Dendritic distribution of autophagosomes underlies pathway-selective induction of LTD Cell reports 2023-07-28 [PMID: 37516958] (IHC-Fr, Mouse)<br /><br />Details:<br />Dilutions: 1:500 </a></td> <td valign="top">IHC-Fr</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil firstten" data-application="In vivo assay" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/37456828" target="_blank" rel="nofollow"> Sakurai HT, Iwashita H, Arakawa S et al. Development of small fluorescent probes for the analysis of autophagy kinetics iScience 2023-07-21 [PMID: 37456828] (In vivo assay) </a></td> <td valign="top">In vivo assay</td> <td valign="top"></td> </tr><tr class="lined revfil firstten" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/37397563" target="_blank" rel="nofollow"> Pan Y, Yang Y, Fan M et al. Progranulin regulation of autophagy contributes to its chondroprotective effect in osteoarthritis Genes & Diseases 2023-07-01 [PMID: 37397563] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil firstten" data-application="Western Blot" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/37314749" target="_blank" rel="nofollow"> Amanda M, Artem P, Taylor D et al. Targeting the ATF6-mediated ER stress response and autophagy blocks integrin-driven prostate cancer progression Mol Cancer Res. 2023-06-14 [PMID: 37314749] (Western Blot, Human) </a></td> <td valign="top">Western Blot</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="Western Blot" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/37131209" target="_blank" rel="nofollow"> Mitsui, K;Hishiyama, S;Jain, A;Kotoda, Y;Abe, M;Matsukawa, T;Kotoda, M; Role of macrophage autophagy in postoperative pain and inflammation in mice Journal of neuroinflammation 2023-05-02 [PMID: 37131209] (Western Blot, Mouse) </a></td> <td valign="top">Western Blot</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/37075122" target="_blank" rel="nofollow"> S Mukhopadhy, J Encarnació, EY Lin, ASW Sohn, H Zhang, JD Mancias, AC Kimmelman Autophagy supports mitochondrial metabolism through the regulation of iron homeostasis in pancreatic cancer Science Advances, 2023-04-19;9(16):eadf9284. 2023-04-19 [PMID: 37075122] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/36911373" target="_blank" rel="nofollow"> Bi Y, Yang G, Guo Z et al. Chronic high?salt intake induces cardiomyocyte autophagic vacuolization during left ventricular maladaptive remodeling in spontaneously hypertensive rats Experimental and Therapeutic Medicine 2023-02-16 [PMID: 36911373] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/36872914" target="_blank" rel="nofollow"> Wan W, Qian C, Wang Q et al. STING directly recruits WIPI2 for autophagosome formation during STING-induced autophagy The EMBO journal 2023-03-06 [PMID: 36872914] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/36798436" target="_blank" rel="nofollow"> Liao YH, Wu JT, Hsieh IC et al. ARMS-NF-?B signaling regulates intracellular ROS to induce autophagy-associated cell death upon oxidative stress iScience 2023-02-17 [PMID: 36798436] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="Western Blot" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/36611940" target="_blank" rel="nofollow"> Lee HJ, Kim SH, Kim YH et al. Nalfurafine Hydrochloride, a ?-Opioid Receptor Agonist, Induces Melanophagy via PKA Inhibition in B16F1 Cells Cells 2022-12-29 [PMID: 36611940] (Western Blot) </a></td> <td valign="top">Western Blot</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/36284011" target="_blank" rel="nofollow"> Alan P, Vandevoorde KR, Joshi B et al. Basal Gp78-dependent mitophagy promotes mitochondrial health and limits mitochondrial ROS Cellular and Molecular Life Sciences 2022-11-01 [PMID: 36284011] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td> Karuppan MKM, Ojha CR, Rodriguez M, Lapierre J Zika virus infection during pregnancy and induced brain pathology in beclin1-deficient mouse model bioRxiv 2019-11-15 (WB, Mouse) </td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td> </td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/36478958" target="_blank" rel="nofollow"> Ktena N, Kaplanis SI, Kolotuev I et al. Autophagic degradation of CNS myelin maintains axon integrity Cell stress 2022-12-01 [PMID: 36478958] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td> Ruhen O Comprehensive genomic profiling of circulating tumour DNA and tumour-derived extracellular vesicles from breast cancer patients Thesis (WB, Human) </td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/36224376" target="_blank" rel="nofollow"> Li L, Zhang M, Li S et al. Isatropolone/isarubrolone Cm from Streptomyces with biological activity of inducing incomplete autophagy The Journal of antibiotics 2022-10-12 [PMID: 36224376] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/36197111" target="_blank" rel="nofollow"> Zhang R, Lin H, You Q et al. Peste des Petits Ruminants Virus Upregulates STING to Activate ATF6-Mediated Autophagy Journal of virology 2022-10-26 [PMID: 36197111] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35941418" target="_blank" rel="nofollow"> Seo H, Choi HJ, Kim OH et al. The secretome obtained under hypoxic preconditioning from human adipose-derived stem cells exerts promoted anti-apoptotic potentials through upregulated autophagic process Molecular biology reports 2022-08-08 [PMID: 35941418] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Porcine"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35927699" target="_blank" rel="nofollow"> Wen Y, Chen Z, Tian Y et al. Incomplete autophagy promotes the proliferation of Mycoplasma hyopneumoniae through the JNK and Akt pathways in porcine alveolar macrophages Veterinary research 2022-08-04 [PMID: 35927699] (WB, Porcine) </a></td> <td valign="top">WB</td> <td valign="top">Porcine</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35786294" target="_blank" rel="nofollow"> Bai J, Liu T, Tu B et al. Autophagy loss impedes cancer-associated fibroblast activation via downregulating proline biosynthesis Autophagy 2022-07-11 [PMID: 35786294] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35743315" target="_blank" rel="nofollow"> Della Vecchia S, Ogi A, Licitra R et al. Trehalose Treatment in Zebrafish Model of Lafora Disease International journal of molecular sciences 2022-06-20 [PMID: 35743315] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35696209" target="_blank" rel="nofollow"> Hsu MC, Guo BC, Chen CH et al. Apigenin ameliorates hepatic lipid accumulation by activating the autophagy-mitochondria pathway Journal of Food and Drug Analysis 2021-06-15 [PMID: 35696209] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35682999" target="_blank" rel="nofollow"> Ruhen O Comprehensive genomic profiling of circulating tumour DNA and tumour-derived extracellular vesicles from breast cancer patients Int J Mol Sci 2022-06-10 [PMID: 35682999] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35580604" target="_blank" rel="nofollow"> Chua JP, Bedi K, Paulsen MT et al. Myotubularin-related phosphatase 5 is a critical determinant of autophagy in neurons Current biology : CB 2022-05-10 [PMID: 35580604] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35365624" target="_blank" rel="nofollow"> Chimenti I, Picchio V, Pagano F et al. The impact of autophagy modulation on phenotype and survival of cardiac stromal cells under metabolic stress Cell death discovery 2022-04-01 [PMID: 35365624] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35316161" target="_blank" rel="nofollow"> Kao CH, Su TY, Huang WS et al. TFEB- and TFE3-dependent autophagy activation supports cancer proliferation in the absence of centrosomes Autophagy 2022-03-22 [PMID: 35316161] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34578904" target="_blank" rel="nofollow"> Sekiguchi K, Miyahara H, Inoue M et al. Metabolome Characteristics of Liver Autophagy Deficiency under Starvation Conditions in Infancy Nutrients 2021-08-29 [PMID: 34578904] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34168038" target="_blank" rel="nofollow"> Rudnick JA, Monkkonen T, Mar FA et al. Autophagy in stromal fibroblasts promotes tumor desmoplasia and mammary tumorigenesis Genes & development 2021-07-01 [PMID: 34168038] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33976473" target="_blank" rel="nofollow"> MOROKI T, MATSUO S, HATAKEYAMA H et al. Databases for technical aspects of immunohistochemistry-2021 update Journal of Toxicologic Pathology 2021-02-24 [PMID: 33976473] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33915953" target="_blank" rel="nofollow"> Shi M, Shepard S, Zhou Z et al. High Dietary Phosphate Exacerbates and Acts Independently of Low Autophagy Activity in Pathological Cardiac Remodeling and Dysfunction Cells 2021-04-01 [PMID: 33915953] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="Western Blot, Block/Neutralize" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33863987" target="_blank" rel="nofollow"> Inoue M, Miyahara H, Shiraishi H et al. Leucyl-tRNA synthetase deficiency systemically induces excessive autophagy in zebrafish Scientific Reports 2021-04-16 [PMID: 33863987] (Western Blot, Block/Neutralize) </a></td> <td valign="top">Western Blot, Block/Neutralize</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="In vivo assay" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33755378" target="_blank" rel="nofollow"> Wang X, Pei Z, Hossain A et al. Transcription factor-based gene therapy to treat glioblastoma through direct neuronal conversion Cancer Biology and Medicine 2021-08-15 [PMID: 33755378] (In vivo assay) </a></td> <td valign="top">In vivo assay</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33609513" target="_blank" rel="nofollow"> Xiao J, Yao J, Jia L et al. Autophagy activation and photoreceptor survival in retinal detachment Experimental eye research 2021-02-18 [PMID: 33609513] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="Western Blot, Immunocytochemistry/ Immunofluorescence" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33556283" target="_blank" rel="nofollow"> Zheng J, Hu S, Wang J et al. Icariin improves brain function decline in aging rats by enhancing neuronal autophagy through the AMPK/mTOR/ULK1 pathway Pharmaceutical Biology 2021-02-08 [PMID: 33556283] (Western Blot, Immunocytochemistry/ Immunofluorescence) </a></td> <td valign="top">Western Blot, Immunocytochemistry/ Immunofluorescence</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td> Choi G, Oh J, Lee H et al. Glucocorticoid-mediated ER-mitochondria contacts reduce AMPA receptor and mitochondria trafficking into cell terminus via microtubule destabilization. Mol. Carcinog. Nov 22 2018 (WB, Human) </td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="Immunocytochemistry/ Immunofluorescence" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33526046" target="_blank" rel="nofollow"> Annangi B, Lu Z, Bruniaux J et al. Macrophage autophagy protects mice from cerium oxide nanoparticle-induced lung fibrosis Particle and Fibre Toxicology 2021-12-01 [PMID: 33526046] (Immunocytochemistry/ Immunofluorescence) </a></td> <td valign="top">Immunocytochemistry/ Immunofluorescence</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33495338" target="_blank" rel="nofollow"> Wijshake T, Zou Z, Chen B, et al. Tumor-suppressor function of Beclin 1 in breast cancer cells requires E-cadherin Proceedings of the National Academy of Sciences of the United States of America 2021-02-02 [PMID: 33495338] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33465003" target="_blank" rel="nofollow"> Chao T, Shih HT, Hsu SC, et al. Autophagy restricts mitochondrial DNA damage-induced release of ENDOG (endonuclease G) to regulate genome stability Autophagy 2021-01-19 [PMID: 33465003] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33380286" target="_blank" rel="nofollow"> Zhu E, Wu H, Chen W, et al. Classical swine fever virus employs the PERK- and IRE1-dependent autophagy for viral replication in cultured cells Virulence 2021-12-01 [PMID: 33380286] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33303681" target="_blank" rel="nofollow"> Gu Q, Jiao S, Duan K et al. The BAD-BAX-caspase-3 cascade modulates synaptic vesicle pools via autophagy The Journal of neuroscience : the official journal of the Society for Neuroscience 2020-12-10 [PMID: 33303681] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33290859" target="_blank" rel="nofollow"> Pareja-Cajiao M, Gransee HM, Stowe JM et al. Age-related impairment of autophagy in cervical motor neurons Experimental gerontology 2020-12-05 [PMID: 33290859] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33277461" target="_blank" rel="nofollow"> Hwang JR, Kim WY, Cho YJ et al. Chloroquine reverses chemoresistance via upregulation of p21WAF1/CIP1 and autophagy inhibition in ovarian cancer Cell death & disease 2020-12-04 [PMID: 33277461] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Drosophila"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33221768" target="_blank" rel="nofollow"> Cui L, Song W, Zeng Y et al. Deubiquitinase USP7 regulates Drosophila aging through ubiquitination and autophagy Aging (Albany NY) 2020-11-20 [PMID: 33221768] (WB, Drosophila) </a></td> <td valign="top">WB</td> <td valign="top">Drosophila</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF, IP" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/33146548" target="_blank" rel="nofollow"> Her JY, Lee Y, Kim SJ et al. Blockage of protease-activated receptor 2 exacerbates inflammation in high-fat environment partly through autophagy inhibition Aging (Albany NY) 2020-10-24 [PMID: 33146548] (ICC/IF, IP, Human) </a></td> <td valign="top">ICC/IF, IP</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32868900" target="_blank" rel="nofollow"> Miceli C, Roccio F, Penalva-Mousset L et al. The primary cilium and lipophagy translate mechanical forces to direct metabolic adaptation of kidney epithelial cells Nat. Cell Biol. 2020-09-01 [PMID: 32868900] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32841734" target="_blank" rel="nofollow"> Mukhopadhyay S, Praharaj PP, Naik PP et al. Identification of Annexin A2 as a key mTOR target to induce autophagy to autophagy dependent cell death in stress Biochim Biophys Acta Mol Basis Dis 2020-08-22 [PMID: 32841734] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32792197" target="_blank" rel="nofollow"> Park HJ, Jo DS, Choi DS et al. Ursolic acid inhibits pigmentation by increasing melanosomal autophagy in B16F1 cells Biochem. Biophys. Res. Commun. 2020-08-10 [PMID: 32792197] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32768214" target="_blank" rel="nofollow"> Fiorito F, Nocera F, Cantiello A et al. Bovine herpesvirus-1 infection in mouse neuroblastoma (Neuro-2A) cells Veterinary Microbiology 2020-08-01 [PMID: 32768214] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32681145" target="_blank" rel="nofollow"> Goldsmith J, Marsh T, Asthana S et al. Ribosome profiling reveals a functional role for autophagy in mRNA translational control Commun Biol 2020-07-17 [PMID: 32681145] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32498399" target="_blank" rel="nofollow"> MKM Karuppan, CR Ojha, M Rodriguez, J Lapierre, MJ Aman, F Kashanchi, M Toborek, M Nair, N El-Hage Reduced-Beclin1-Expressing Mice Infected with Zika-R103451 and Viral-Associated Pathology during Pregnancy Viruses, 2020-06-02;12(6):. 2020-06-02 [PMID: 32498399] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31965901" target="_blank" rel="nofollow"> Y Takagaki, SM Lee, Z Dongqing, M Kitada, K Kanasaki, D Koya Endothelial autophagy deficiency induces IL6 - dependent endothelial mesenchymal transition and organ fibrosis Autophagy, 2020-01-22;0(0):1-10. 2020-01-22 [PMID: 31965901] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31461955" target="_blank" rel="nofollow"> Sun C, Enkhjargal B, Reis C et al. Osteopontin-Enhanced Autophagy Attenuates Early Brain Injury via FAK-ERK Pathway and Improves Long-Term Outcome after Subarachnoid Hemorrhage in Rats Cells 2019-08-27 [PMID: 31461955] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30821607" target="_blank" rel="nofollow"> Shin JH, Park SJ, Jo DS et al. Down-regulated TMED10 in Alzheimer disease induces autophagy via ATG4B activation Autophagy 2019-03-01 [PMID: 30821607] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30767704" target="_blank" rel="nofollow"> You Z, Xu Y, Wan W et al. TP53INP2 contributes to autophagosome formation by promoting LC3-ATG7 interaction Autophagy 2019-02-15 [PMID: 30767704] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Guinea Pig"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30766882" target="_blank" rel="nofollow"> Zhang Y, Jiang Q, Xie S et al. Lead Induced Ototoxicity and Neurotoxicity in Adult Guinea Pig BioMed Research International 2019-01-15 [PMID: 30766882] (WB, Guinea Pig) </a></td> <td valign="top">WB</td> <td valign="top">Guinea Pig</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td> Kern A, Bekbulat F, Schmitt D et al. RAB18 impacts autophagy via lipid droplet-derived lipid transfer and is rescued by ATG9A. bioRxiv 2018-09-19 (WB, Human) </td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35663567" target="_blank" rel="nofollow"> Jiang R, Shimozawa M, Mayer J et al. Autophagy Impairment in App Knock-in Alzheimer's Model Mice Frontiers in aging neuroscience 2022-05-19 [PMID: 35663567] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Drosophila"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35286967" target="_blank" rel="nofollow"> Lim JJ, Hyun S Minocycline treatment improves proteostasis during Drosophila aging via autophagy mediated by FOXO and Hsp70 Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie 2022-03-11 [PMID: 35286967] (IF/IHC, Drosophila) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Drosophila</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35284915" target="_blank" rel="nofollow"> Izumi H, Li Y, Yasunami M et al. Asymmetric Pericentrosomal CD133 Endosomes Induce the Unequal Autophagic Activity During Cytokinesis in CD133-Positive Human Neuroblastoma Cells Stem cells (Dayton, Ohio) 2022-03-14 [PMID: 35284915] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35251348" target="_blank" rel="nofollow"> Chen y, Chen S, Li T et al. 4-Acetylantroquinonol B enhances cell death and inhibits autophagy by downregulating the PI3K/Akt/MDR1 pathway in gemcitabine-resistant pancreatic cancer cells Oncology Letters 2022-02-18 [PMID: 35251348] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Drosophilia"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35204105" target="_blank" rel="nofollow"> Chaouhan HS, Li X, Sun KT et al. Calycosin Alleviates Paraquat-Induced Neurodegeneration by Improving Mitochondrial Functions and Regulating Autophagy in a Drosophila Model of Parkinson's Disease Antioxidants (Basel, Switzerland) 2022-01-24 [PMID: 35204105] (WB, Drosophilia) </a></td> <td valign="top">WB</td> <td valign="top">Drosophilia</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/35173167" target="_blank" rel="nofollow"> Ji CH, Kim Hy, Lee MJ et al. The AUTOTAC chemical biology platform for targeted protein degradation via the autophagy-lysosome system Nature communications 2022-02-16 [PMID: 35173167] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Bovine"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34998548" target="_blank" rel="nofollow"> Dong J, Yue K, Loor J et al. Increased adipose tissue lipolysis in dairy cows with fatty liver is associated with enhanced autophagy activity Journal of Dairy Science 2022-01-01 [PMID: 34998548] (WB, Bovine) </a></td> <td valign="top">WB</td> <td valign="top">Bovine</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34754985" target="_blank" rel="nofollow"> Irace F, Cammisotto V, Valenti V Et al. Role of Oxidative Stress and Autophagy in Thoracic Aortic Aneurysms JACC: Basic to Translational Science 2021-09-01 [PMID: 34754985] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Bovine"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34691032" target="_blank" rel="nofollow"> Peng Z, Zhao C, Du X Et al. Autophagy Induced by Palmitic Acid Regulates Neutrophil Adhesion Through the Granule-Dependent Degradation of alpha M beta 2 Integrin in Dairy Cows With Fatty Liver Frontiers in immunology 2021-10-07 [PMID: 34691032] (Bovine) </a></td> <td valign="top"></td> <td valign="top">Bovine</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34625609" target="_blank" rel="nofollow"> LOpez-Pedrajas R, Almansa I, SAnchez-Villarejo MV Et al. Role of hippocampal NF- kappa B and GluN2B in the memory acquisition impairment of experiences gathered prior to cocaine administration in rats Scientific reports 2021-10-08 [PMID: 34625609] (WB, Rat) </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34622072" target="_blank" rel="nofollow"> Parry H, Randall R, Hyatt H et al. Short and long-term effect of reproduction on mitochondrial dynamics and autophagy in rats Heliyon 2021-09-01 [PMID: 34622072] (WB, Rat) </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34612149" target="_blank" rel="nofollow"> Xu Y, Wu Y, Wang L Et al. Autophagy deficiency activates rDNA transcription Autophagy 2021-10-06 [PMID: 34612149] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34440779" target="_blank" rel="nofollow"> Ross BX, Jia L, Kong D Et al. Conditional Knock out of High-Mobility Group Box 1 (HMGB1) in Rods Reduces Autophagy Activation after Retinal Detachment Cells 2021-08-06 [PMID: 34440779] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/34430907" target="_blank" rel="nofollow"> Bains H, Singh R Isolation of autophagic fractions from mouse liver for biochemical analyses STAR protocols 2021-09-17 [PMID: 34430907] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32985978" target="_blank" rel="nofollow"> Bressan, C, Pecora, A Et al. The dynamic interplay between ATP/ADP levels and autophagy sustain neuronal migration in vivo. Elife 2020-09-28 [PMID: 32985978] (IF/IHC, Mouse)<br /><br />Details:<br />Citation using the Alexa Fluor 405 format of this antibody. </a></td> <td valign="top">IF/IHC</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32941497" target="_blank" rel="nofollow"> Park HJ, Jo DS, Choi H et al. Melasolv induces melanosome autophagy to inhibit pigmentation in B16F1 cells PloS one 2020-09-17 [PMID: 32941497] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32660121" target="_blank" rel="nofollow"> Han KM, Kang RJ, Jeon H et al. Regorafenib Regulates AD Pathology, Neuroinflammation, and Dendritic Spinogenesis in Cells and a Mouse Model of AD Cells 2020-07-09 [PMID: 32660121] (IF/IHC, Mouse) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32566104" target="_blank" rel="nofollow"> Park SH, Choi HI, Ahn J et al. Autophagy Functions to Prevent Methylglyoxal-Induced Apoptosis in HK-2 Cells Oxid Med Cell Longev 2020-06-04 [PMID: 32566104] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32532981" target="_blank" rel="nofollow"> Shen H, Zhu H, Panja D et al. Autophagy controls the induction and developmental decline of NMDAR-LTD through endocytic recycling Nat Commun 2020-06-12 [PMID: 32532981] (ICC/IF) </a></td> <td valign="top">ICC/IF</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32531067" target="_blank" rel="nofollow"> Yefimova, M G, LefEvre, C Et al. Granulosa cells provide elimination of apoptotic oocytes through unconventional autophagy-assisted phagocytosis. Hum Reprod 2020-06-01 [PMID: 32531067] (IF/IHC, Mouse) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32457070" target="_blank" rel="nofollow"> Dutta K, Thammisetty SS, Boutej H et al. Mitigation of ALS pathology by neuron-specific inhibition of nuclear factor kappa B signaling J. Neurosci. 2020-05-26 [PMID: 32457070] (IF/IHC, Mouse) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32299282" target="_blank" rel="nofollow"> Liao K, Niu F, Hu G et al. HIV Tat-mediated induction of autophagy regulates the disruption of ZO-1 in brain endothelial cells Tissue Barriers 2020-04-16 [PMID: 32299282] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32102330" target="_blank" rel="nofollow"> Mei J Strategy of Hepatic Metabolic Defects Induced by beclin1 Heterozygosity in Adult Zebrafish Int J Mol Sci 2020-02-24 [PMID: 32102330] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse, Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32084360" target="_blank" rel="nofollow"> Marsh T, Kenific CM, Suresh D et al. Autophagic Degradation of NBR1 Restricts Metastatic Outgrowth during Mammary Tumor Progression Dev. Cell 2020-02-12 [PMID: 32084360] (WB, Mouse, Human) </a></td> <td valign="top">WB</td> <td valign="top">Mouse, Human</td> </tr><tr class="lined revfil hidden" data-application="IHC-P" data-species="Alligator"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32061056" target="_blank" rel="nofollow"> Hale A, Merchant M, White M Detection and analysis of autophagy in the American alligator (Alligator mississippiensis) J. Exp. Zool. B Mol. Dev. Evol. 2020-02-15 [PMID: 32061056] (IHC-P, Alligator) </a></td> <td valign="top">IHC-P</td> <td valign="top">Alligator</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/32037170" target="_blank" rel="nofollow"> Chen M, Loor JJ, Zhai Q et al. Short communication: Enhanced autophagy activity in liver tissue of dairy cows with mild fatty liver J. Dairy Sci. 2020-02-06 [PMID: 32037170] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31874152" target="_blank" rel="nofollow"> Bekbulat F, Schmitt D, Feldmann A, et al. RAB18 loss interferes with lipid droplet catabolism and provokes autophagy network adaptations J. Mol. Biol. 2019-12-21 [PMID: 31874152] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Rat, Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31818185" target="_blank" rel="nofollow"> An HK, Chung KM, Park H, et al. CASP9 (caspase 9) is essential for autophagosome maturation through regulation of mitochondrial homeostasis Autophagy 2019-12-10 [PMID: 31818185] (Rat, Human) </a></td> <td valign="top"></td> <td valign="top">Rat, Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Porcine"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31798542" target="_blank" rel="nofollow"> Zhu E, Chen W, Qin Y, et al. Classical Swine Fever Virus Infection Induces Endoplasmic Reticulum Stress-Mediated Autophagy to Sustain Viral Replication in vivo and in vitro Front Microbiol 2019-11-12 [PMID: 31798542] (WB, Porcine) </a></td> <td valign="top">WB</td> <td valign="top">Porcine</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31795130" target="_blank" rel="nofollow"> Liu YT, Lai YH, Lin HH, Chen JH Lotus Seedpod Extracts Reduced Lipid Accumulation and Lipotoxicity in Hepatocytes Nutrients 2019-11-28 [PMID: 31795130] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31659628" target="_blank" rel="nofollow"> Su BC, Hsu PL, Mo FE CCN1 triggers adaptive autophagy in cardiomyocytes to curb its apoptotic activities J Cell Commun Signal 2019-10-28 [PMID: 31659628] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31636955" target="_blank" rel="nofollow"> Wible DJ, Chao HP, Tang DG et al. ATG5 cancer mutations and alternative mRNA splicing reveal a conjugation switch that regulates ATG12-ATG5-ATG16L1 complex assembly and autophagy Cell Discov 2019-08-27 [PMID: 31636955] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31436915" target="_blank" rel="nofollow"> Sun CM, Enkhjargal B, Reis C et al. Osteopontin attenuates early brain injury through regulating autophagy-apoptosis interaction after subarachnoid hemorrhage in rats CNS Neurosci Ther 2019-08-22 [PMID: 31436915] (WB, Rat) </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31432621" target="_blank" rel="nofollow"> Koerver L, Papadopoulos C, Liu B et al. The ubiquitin-conjugating enzyme UBE2QL1 coordinates lysophagy in response to endolysosomal damage EMBO Rep. 2019-08-21 [PMID: 31432621] (Human) </a></td> <td valign="top"></td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31189110" target="_blank" rel="nofollow"> Chiramel AI, Meyerson NR, McNally KL et al. TRIM5 alpha Restricts Flavivirus Replication by Targeting the Viral Protease for Proteasomal Degradation Cell Rep 2019-06-11 [PMID: 31189110] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31145860" target="_blank" rel="nofollow"> Lee HI, Lee J, Hwang D et al. Dehydrocostus lactone suppresses osteoclast differentiation by regulating NFATc1 and inhibits osteoclast activation through modulating migration and lysosome function FASEB J. 2019-05-30 [PMID: 31145860] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31075254" target="_blank" rel="nofollow"> Das J, Agarwal T, Chakraborty S, Maiti, TK Compressive stress-induced autophagy promotes invasion of HeLa cells by facilitating protein turnover in vitro Exp. Cell Res. 2019-05-07 [PMID: 31075254] (IF/IHC, Human) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31070914" target="_blank" rel="nofollow"> Lu H, Liu C, Velazquez R et al. Isarubrolones Containing a Pyridooxazinium Unit from Streptomyces as Autophagy Activators J. Nat. Prod. 2019-05-24 [PMID: 31070914] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/31060556" target="_blank" rel="nofollow"> Zheng W, Xie W, Yin D, et al. ATG5 and ATG7 induced autophagy interplays with UPR via PERK signaling Cell Commun. Signal 2019-05-06 [PMID: 31060556] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30992325" target="_blank" rel="nofollow"> Hu, Z;Chen, B;Zhao, Q; Hedgehog signaling regulates osteoblast differentiation in zebrafish larvae through modulation of autophagy Biol Open 2019-04-16 [PMID: 30992325] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30629163" target="_blank" rel="nofollow"> Bonello F, Hassoun SM, Mouton-Liger F et al. LRRK2 impairs PINK1/Parkin-dependent mitophagy via its kinase activity: pathologic insights into Parkinson's disease. Hum. Mol. Genet. 2019-01-09 [PMID: 30629163] (ICC/IF, Human) </a></td> <td valign="top">ICC/IF</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="IHC-P" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30297526" target="_blank" rel="nofollow"> Bechelli J, Vergara L, Smalley C et al. Atg5 Supports Rickettsia australis Infection in Macrophages In Vitro and In Vivo Infect. Immun. 2019-01-01 [PMID: 30297526] (IHC-P, Mouse) </a></td> <td valign="top">IHC-P</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30296435" target="_blank" rel="nofollow"> Gorgulu k, Diakopoulos kN, Ai J et al. Levels of the Autophagy Related 5 Protein Affect Progression and Metastasis of Pancreatic Tumors in Mice. Gastroenterology. 2018-10-05 [PMID: 30296435] (IF/IHC, Mouse) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td> Nabi I, Alan P, Vandevoorde K et al. Basal Gp78-dependent mitophagy promotes mitochondrial health and limits mitochondrial ROS Research Square </td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30565807" target="_blank" rel="nofollow"> Kong D, Hua X, Qin T et al. Inhibition of GSK3b protects liver against ischemia/reperfusion injury via activating AMPK-mediated autophagy. Journal of Oncology. 2018-11-08 [PMID: 30565807] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30429451" target="_blank" rel="nofollow"> Choi GE, Oh JY, Lee HJ et al. Glucocorticoid-mediated ER-mitochondria contacts reduce AMPA receptor and mitochondria trafficking into cell terminus via microtubule destabilization Cell Death Dis. 2018-11-13 [PMID: 30429451] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Human"> <td> Pan Y, Yang Y, Fan M et al. Progranulin regulation of autophagy contributes to its chondroprotective effect in osteoarthritis Genes & Diseases 2022-06-01 (IF/IHC, Human) </td> <td valign="top">IF/IHC</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30340022" target="_blank" rel="nofollow"> Wan W, You Z, Zhou L et al. mTORC1-Regulated and HUWE1-Mediated WIPI2 Degradation Controls Autophagy Flux. Mol. Cell. 2018-10-18 [PMID: 30340022] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30210920" target="_blank" rel="nofollow"> Ye T, Jiang K, Wei L et al. Oncolytic Newcastle disease virus induces autophagy-dependent immunogenic cell death in lung cancer cells. Am J Cancer Res 2018-08-01 [PMID: 30210920] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30196744" target="_blank" rel="nofollow"> Arbogast F, Arnold J, Hammann P et al. ATG5 is required for B cell polarization and presentation of particulate antigens Autophagy 2019-02-01 [PMID: 30196744] (ICC/IF, Mouse) </a></td> <td valign="top">ICC/IF</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30154452" target="_blank" rel="nofollow"> Jiang Z, Bo L, et al. Overexpression of homeodomain-interacting protein kinase 2 (HIPK2) attenuates sepsis-mediated liver injury by restoring autophagy. Cell Death Dis 2018-08-28 [PMID: 30154452] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30134145" target="_blank" rel="nofollow"> Dutta K, Patel P, Julien JP. Protective effects of Withania somnifera extract in SOD1G93A mouse model of amyotrophic lateral sclerosis Exp. Neurol. 2018-08-19 [PMID: 30134145] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/30082761" target="_blank" rel="nofollow"> Li , Wang C, Li Z et al. Nano-sized Al2O3 particle-induced autophagy reduces osteolysis in aseptic loosening of total hip arthroplasty by negative feedback regulation of RANKL expression in fibroblasts Cell Death Dis 2018-08-12 [PMID: 30082761] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB, IHC-P" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29956571" target="_blank" rel="nofollow"> Lin HH, Chung Y, Cheng CT et al. Autophagic reliance promotes metabolic reprogramming in oncogenic KRAS-driven tumorigenesis Autophagy. 2018-10-31 [PMID: 29956571] (WB, IHC-P, Mouse) </a></td> <td valign="top">WB, IHC-P</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29940785" target="_blank" rel="nofollow"> Yao J, Qiu Y, Frontera E et al. Inhibiting autophagy reduces retinal degeneration caused by protein misfolding. Autophagy. 2018-07-13 [PMID: 29940785] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29937275" target="_blank" rel="nofollow"> Park SM, Lim JS, Ramakrishina S et al. Brain Somatic Mutations in MTOR Disrupt Neuronal Ciliogenesis, Leading to Focal Cortical Dyslamination Neuron 2018-06-09 [PMID: 29937275] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29890129" target="_blank" rel="nofollow"> Chen PH, Liu AJ, Ho KH et al. microRNA-199a/b-5p enhance imatinib efficacy via repressing WNT2 signaling-mediated protective autophagy in imatinib-resistant chronic myeloid leukemia cells Chem Biol Interact. [PMID: 29890129] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29692779" target="_blank" rel="nofollow"> Wu XM, Chen WQ, Hu YW et al. RIP2 Is a Critical Regulator for NLRs Signaling and MHC Antigen Presentation but Not for MAPK and PI3K/Akt Pathways. Front Immunol 2018-04-10 [PMID: 29692779] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29685904" target="_blank" rel="nofollow"> Nanni M, Ranieri D, RoSato B et al. Role of FGFR2b in the crosstalk between autophagy and differentiation: involvement of JNK signaling Mol. Cell. Biol. 2018-04-23 [PMID: 29685904] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29654322" target="_blank" rel="nofollow"> Murera D, Arbogast F, Arnold J et al. CD4 T cell autophagy is integral to memory maintenance. Sci Rep 2018-04-13 [PMID: 29654322] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29361549" target="_blank" rel="nofollow"> Kim YH, Kwak MS, Shin JM et al. Inflachromene inhibits autophagy through modulation of Beclin 1 activity. J Cell Sci 2018-02-20 [PMID: 29361549] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29295953" target="_blank" rel="nofollow"> Shim S M, Choi H R et al. The endoplasmic reticulum-residing chaperone BiP is short-lived and metabolized through N-terminal arginylation. Sci Signal 2018-02-01 [PMID: 29295953] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29231257" target="_blank" rel="nofollow"> Xia X, Wang L, Zhang X et al. Halofuginone-induced Autophagy Suppresses the Migration and Invasion of MCF-7 Cells via Regulation of STMN1 and p53. J. Cell. Biochem. 2017-12-12 [PMID: 29231257] (Human) </a></td> <td valign="top"></td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29207660" target="_blank" rel="nofollow"> Yang PW, Hsieh MS, Chang YH et al. Genetic polymorphisms of ATG5 predict survival and recurrence in patients with early-stage esophageal squamous cell carcinoma. Oncotarget 2017-10-31 [PMID: 29207660] (Human) </a></td> <td valign="top"></td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29174892" target="_blank" rel="nofollow"> Baron O, Boudi A, Dias C et al. Stall in Canonical Autophagy-Lysosome Pathways Prompts Nucleophagy-Based Nuclear Breakdown in Neurodegeneration. Curr Biol 2017-11-17 [PMID: 29174892] (Mouse) </a></td> <td valign="top"></td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Bovine"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29166823" target="_blank" rel="nofollow"> Sun P, Zhang S, Qin X et al. Foot-and-mouth disease virus capsid protein VP2 activates the cellular EIF2S1-ATF4 pathway and induces autophagy via HSPB1 Autophagy. 2017-11-23 [PMID: 29166823] (Bovine) </a></td> <td valign="top"></td> <td valign="top">Bovine</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29107505" target="_blank" rel="nofollow"> Martinez-Lopez N, Tarabra E, Toledo M et al. System-wide Benefits of Intermeal Fasting by Autophagy. Cell Metabolism. [PMID: 29107505] (Mouse) </a></td> <td valign="top"></td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Bovine"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29042667" target="_blank" rel="nofollow"> Fiorito F, Iovane V, Cantiello A et al. MG-132 reduces virus release in Bovine herpesvirus-1 infection. Sci Rep. 2017-10-17 [PMID: 29042667] (WB, Bovine) </a></td> <td valign="top">WB</td> <td valign="top">Bovine</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28953980" target="_blank" rel="nofollow"> Kuss-Duerkop SK, Wang J, Mena I et al. Influenza virus differentially activates mTORC1 and mTORC2 signaling to maximize late stage replication. PLoS Pathog. 2017-09-01 [PMID: 28953980] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="IHC-P" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28801209" target="_blank" rel="nofollow"> Meckes JK, Carames B, Olmer M et al. Compromised autophagy precedes meniscus degeneration and cartilage damage in mice Osteoarthr. Cartil. 2017-08-08 [PMID: 28801209] (IHC-P, Mouse) </a></td> <td valign="top">IHC-P</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28779098" target="_blank" rel="nofollow"> Mans LA, Querol Cano L, van Pelt J et al. The tumor suppressor LKB1 regulates starvation-induced autophagy under systemic metabolic stress Sci Rep 2017-08-04 [PMID: 28779098] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="WB, FLOW, RIA" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28651493" target="_blank" rel="nofollow"> Zhang R, Xu J, Zhao J, Bai, J. Mir-30d suppresses cell proliferation of colon cancer cells by inhibiting cell autophagy and promoting cell apoptosis. Tumour Biol. 2017-06-01 [PMID: 28651493] (WB, FLOW, RIA, Human) </a></td> <td valign="top">WB, FLOW, RIA</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28600173" target="_blank" rel="nofollow"> Li Z, Yuan Y, Meng Y et al. Autophagy upregulation ameliorates cell injury in Sequestosome 1 knockout podocytes in vitro. Biochem. Biophys. Res. Commun. 2017-06-07 [PMID: 28600173] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td> Sarkar S, Biswas SC Studies on Contribution of Astrocyte Secreted Proteins on Neuronal Health in Models of Alzheimer's Disease Thesis 2022-01-01 (WB, Rat) </td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/29222450" target="_blank" rel="nofollow"> Byun YS, Lee HJ, Shin S, Chung SH. Elevation of autophagy markers in Sjogren syndrome dry eye. Sci Rep 2017-12-08 [PMID: 29222450] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28698482" target="_blank" rel="nofollow"> Mathai BJ, Meijer AH, Simonsen A. Studying Autophagy in Zebrafish. Cells 2017-07-09 [PMID: 28698482] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28591635" target="_blank" rel="nofollow"> Hine C, Kim HJ, Zhu Y et al. Hypothalamic-Pituitary Axis Regulates Hydrogen Sulfide Production Cell Metab. 2017-06-06 [PMID: 28591635] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28428343" target="_blank" rel="nofollow"> Zielniok K, Sobolewska A, Gajewska M. Mechanisms of autophagy induction by sex steroids in bovine mammary epithelial cells. J. Mol. Endocrinol. 2017-04-20 [PMID: 28428343] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28380348" target="_blank" rel="nofollow"> Sathyanarayan A, Mashek MT, Mashek DG. ATGL Promotes Autophagy/Lipophagy via SIRT1 to Control Hepatic Lipid Droplet Catabolism. Cell Rep. 2017-04-04 [PMID: 28380348] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28255205" target="_blank" rel="nofollow"> Zhu Li, Wang Huaizhou, Wu Yu et al. The Autophagy Level Is Increased in the Synovial Tissues of Patients with Active Rheumatoid Arthritis and Is Correlated with Disease Severity. Mediators of Inflammation 2017-02-01 [PMID: 28255205] (IF/IHC, Human) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28232493" target="_blank" rel="nofollow"> Francesco P Zummo, Kirsty S Cullen, Minna Honkanen-Scott, James A M Shaw, Penny E Lovat, Catherine Arden Glucagon-Like Peptide 1 Protects Pancreatic beta -Cells From Death by Increasing Autophagic Flux and Restoring Lysosomal Function. Diabetes 2017-08-18 [PMID: 28232493] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28231469" target="_blank" rel="nofollow"> Okerlund ND, Schneider K, Leal-Ortiz S et al. Bassoon Controls Presynaptic Autophagy through Atg5. Neuron. 2017-02-22 [PMID: 28231469] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28132808" target="_blank" rel="nofollow"> Maus M, Cuk M, Patel B et al. Store-Operated Ca2+ Entry Controls Induction of Lipolysis and the Transcriptional Reprogramming to Lipid Metabolism. Cell Metab. 2017-03-07 [PMID: 28132808] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/28122966" target="_blank" rel="nofollow"> Fabrice Gankam-Kengne, Bruno S. Couturier, Alain Soupart et al. Osmotic Stress-Induced Defective Glial Proteostasis Contributes to Brain Demyelination after Hyponatremia Treatment. jasn.org 2017-01-25 [PMID: 28122966] (WB, Rat) </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27810915" target="_blank" rel="nofollow"> Cai Y, Yang L, Hu G et al. Regulation of morphine-induced synaptic alterations: Role of oxidative stress, ER stress, and autophagy. J. Cell Biol. 2016-10-24 [PMID: 27810915] (WB, Rat) </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27775547" target="_blank" rel="nofollow"> Starobinets H, Ye J, Broz M et al. Antitumor adaptive immunity remains intact following inhibition of autophagy and antimalarial treatment. J. Clin. Invest. 2016-10-24 [PMID: 27775547] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27655644" target="_blank" rel="nofollow"> Lee E, Wei Y, Zou Z et al. Genetic inhibition of autophagy promotes p53 loss-of-heterozygosity and tumorigenesis. Oncotarget. 2016-10-18 [PMID: 27655644] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27613096" target="_blank" rel="nofollow"> Tan X, Wang HC, Liang RY, Chuang SM. Human Rad23A plays a regulatory role in autophagy. Biochem Biophys Res Commun 2016-09-30 [PMID: 27613096] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Bovine"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27551491" target="_blank" rel="nofollow"> Xia XJ, Gao YY, Zhang J et al. Autophagy mediated by arginine depletion activation of the nutrient sensor GCN2 contributes to interferon-gamma-induced malignant transformation of primary bovine mammary epithelial cells Cell Death Discov. 2016-01-24 [PMID: 27551491] (WB, Bovine) </a></td> <td valign="top">WB</td> <td valign="top">Bovine</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27509858" target="_blank" rel="nofollow"> Sousa CM, Biancur DE, Wang X et al. Pancreatic stellate cells support tumour metabolism through autophagic alanine secretion. Nature. 2016-08-25 [PMID: 27509858] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27346059" target="_blank" rel="nofollow"> Choi MS, Kim HJ, Ham M et al. Amber Light (590 nm) Induces the Breakdown of Lipid Droplets through Autophagy-Related Lysosomal Degradation in Differentiated Adipocytes. Sci Rep 2016-06-27 [PMID: 27346059] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="PLA, EM" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27219062" target="_blank" rel="nofollow"> Goodall ML, Fitzwalter BE, Zahedi S et al. The Autophagy Machinery Controls Cell Death Switching between Apoptosis and Necroptosis. Dev. Cell. 2016-05-23 [PMID: 27219062] (PLA, EM, Mouse) </a></td> <td valign="top">PLA, EM</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27214279" target="_blank" rel="nofollow"> Orhon I, Dupont N, Zaidan M et al. Primary-cilium-dependent autophagy controls epithelial cell volume in response to fluid flow. Nat. Cell Biol. 2016-06-01 [PMID: 27214279] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27184837" target="_blank" rel="nofollow"> Sharifi MN, Mowers EE, Drake LE et al. Autophagy Promotes Focal Adhesion Disassembly and Cell Motility of Metastatic Tumor Cells through the Direct Interaction of Paxillin with LC3. Cell Rep. 2016-05-24 [PMID: 27184837] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27172265" target="_blank" rel="nofollow"> Song JX, Sun YR, Peluso I et al. A novel curcumin analog binds to and activates TFEB in vitro and in vivo independent of MTOR inhibition. Autophagy. 2016-05-12 [PMID: 27172265] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27089382" target="_blank" rel="nofollow"> Mireille Ouimet, Stefan Koster, Erik Sakowski, Bhama Ramkhelawon, Coen van Solingen, Scott Oldebeken, Denuja Karunakaran, Cynthia Portal Celhay, Frederick J. Sheedy, Tathagat Dutta Ray, Katharine Cecchini, Philip D Zamore, Katey J Rayner, Yves L Marcel, Jennifer A Philips, Kathryn J Moore Mycobacterium tuberculosis induces the miR-33 locus to reprogram autophagy and host lipid metabolism Nature immunology 2016-03-16 [PMID: 27089382] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27067261" target="_blank" rel="nofollow"> Choudhury KR, Bucha S, Baksi S et al. Chaperone-like protein HYPK and its interacting partners augment autophagy. Eur. J. Cell Biol. 2016-04-01 [PMID: 27067261] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/27025389" target="_blank" rel="nofollow"> Xia X, Che Y, Gao Y et al. Arginine Supplementation Recovered the IFN-gamma-Mediated Decrease in Milk Protein and Fat Synthesis by Inhibiting the GCN2/eIF2alpha Pathway, Which Induces Autophagy in Primary Bovine Mammary Epithelial Cells. Mol Cells 2016-05-31 [PMID: 27025389] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26814135" target="_blank" rel="nofollow"> Yun Woo Jin, Kim Eun-Young, Park Ji-Eun et al. Microtubule-associated protein light chain 3 is involved in melanogenesis via regulation of MITF expression in melanocytes. Scientific Reports 2016-01-01 [PMID: 26814135] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26764007" target="_blank" rel="nofollow"> Imam S, Talley S, Nelson RS et al. TRIM5alpha degradation via autophagy is not required for retroviral restriction. J. Virol. 2016-01-13 [PMID: 26764007] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26698918" target="_blank" rel="nofollow"> Martinez-Lopez N, Garcia-Macia M, Sahu S. Autophagy in the CNS and Periphery Coordinate Lipophagy and Lipolysis in the Brown Adipose Tissue and Liver. Cell Metabolism. 2015-11-19 [PMID: 26698918] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26648164" target="_blank" rel="nofollow"> Sun Y W, Chen K Y et al. CK0403, a 9 aminoacridine, is a potent anti cancer agent in human breast cancer cells. Mol Med Rep 2016-01-01 [PMID: 26648164] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26492575" target="_blank" rel="nofollow"> Zhang F, Wang J, Chu J et al. MicroRNA-146a Induced by Hypoxia Promotes Chondrocyte Autophagy through Bcl-2. Cell. Physiol. Biochem. 2015-11-06 [PMID: 26492575] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="IHC-P" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26487561" target="_blank" rel="nofollow"> Baisantry A, Bhayana S, Rong S et al. Autophagy Induces Prosenescent Changes in Proximal Tubular S3 Segments. J. Am. Soc. Nephrol. 2016-06-01 [PMID: 26487561] (IHC-P, Mouse) </a></td> <td valign="top">IHC-P</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26412641" target="_blank" rel="nofollow"> Liu L, Li CJ, Lu Y et al. Baclofen mediates neuroprotection on hippocampal CA1 pyramidal cells through the regulation of autophagy under chronic cerebral hypoperfusion. Sci Rep 2015-01-01 [PMID: 26412641] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26306675" target="_blank" rel="nofollow"> Pal I, Parida S, Prashanth Kumar BN et al. Blockade of autophagy enhances proapoptotic potential of BI-69A11, a novel Akt inhibitor, in colon carcinoma. Eur. J. Pharmacol. 2015-08-22 [PMID: 26306675] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26255724" target="_blank" rel="nofollow"> Lee YH, Chen HY, Su LJ, Chueh PJ. Sirtuin 1 (SIRT1) Deacetylase Activity and NAD(+)/NADH Ratio Are Imperative for Capsaicin-Mediated Programmed Cell Death. J. Agric. Food Chem. 2015-08-26 [PMID: 26255724] (WB, Human)<br /><br />Details:<br />ATG7 antibody was use for WB on lysates of MRC-5 normal human foetal lung fibroblast cells and adenocarcinomic human alveolar basal epithelial cell line A549 that were treated or not with Capsaicin or ethanol. </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26237736" target="_blank" rel="nofollow"> Johansson I, Monsen VT, Pettersen K et al. The marine n-3 PUFA DHA evokes cytoprotection against oxidative stress and protein misfolding by inducing autophagy and NFE2L2 in human retinal pigment epithelial cells. Autophagy. 2015-08-03 [PMID: 26237736] (WB, Human)<br /><br />Details:<br />ATG5 antibody used for WB on ARPE-19 cells that were transfected with ATG5 siRNA (Figure 4A). </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26217309" target="_blank" rel="nofollow"> Dever SM, Rodriguez M, Lapierre J et al. Differing roles of autophagy in HIV-associated neurocognitive impairment and encephalitis with implications for morphine co-exposure. Front Microbiol 2015-01-01 [PMID: 26217309] (IF/IHC) </a></td> <td valign="top">IF/IHC</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26212128" target="_blank" rel="nofollow"> Pukab K, Goldbaum O, Richter-Landsberg C et al. Mitochondrial impairment and oxidative stress compromise autophagosomal degradation of alpha-synuclein in oligodendroglial cells J. Neurochem. 2015-07-24 [PMID: 26212128] (WB, Rat)<br /><br />Details:<br />ATG5 antibody used for Western blot at a dilution of 1:500 on OLN-t40 cells (oligodendroglial cell line derived from rat brain glial cultures) that were transfected with Atg5 shRNA. </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26183773" target="_blank" rel="nofollow"> Herpin A, Englberger E, Zehner M et al. Defective autophagy through epg5 mutation results in failure to reduce germ plasm and mitochondria. FASEB J 2015-10-01 [PMID: 26183773] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26120775" target="_blank" rel="nofollow"> Yang S, Long LH, Li D et al. beta-Guanidinopropionic acid extends the lifespan of Drosophila melanogaster via an AMP-activated protein kinase-dependent increase in autophagy. Aging Cell 2015-12-01 [PMID: 26120775] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26103419" target="_blank" rel="nofollow"> Till A, Saito R, Merkurjev D et al. Evolutionary trends and functional anatomy of the human expanded autophagy network. Autophagy 2015-01-01 [PMID: 26103419] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26075877" target="_blank" rel="nofollow"> Yao J, Jia L, Khan N et al. Deletion of autophagy inducer RB1CC1 results in degeneration of the retinal pigment epithelium Autophagy. 2015-06-03 [PMID: 26075877] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/26022126" target="_blank" rel="nofollow"> Xin W, Zhao X, Liu L et al. Acetyl-CoA carboxylase 2 suppression rescues human proximal tubular cells from palmitic acid induced lipotoxicity via autophagy. Biochem Biophys Res Commun 2015-07-31 [PMID: 26022126] (Human) </a></td> <td valign="top"></td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB, ICC/IF" data-species="Rat, Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25961502" target="_blank" rel="nofollow"> Kaushik S, Cuervo AM Degradation of lipid droplet-associated proteins by chaperone-mediated autophagy facilitates lipolysis Nat Cell Biol. 2015-05-10 [PMID: 25961502] (WB, ICC/IF, Rat, Mouse) </a></td> <td valign="top">WB, ICC/IF</td> <td valign="top">Rat, Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25946189" target="_blank" rel="nofollow"> Kim Y, Kang YS, Lee NY et al. Uvrag targeting by Mir125a and Mir351 modulates autophagy associated with Ewsr1 deficiency. Autophagy. 2015-05-04 [PMID: 25946189] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25879848" target="_blank" rel="nofollow"> Wu Q, Jiang D, Huang C et al. Trehalose-mediated autophagy impairs the anti-viral function of human primary airway epithelial cells. PLoS One 2015-01-01 [PMID: 25879848] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25827954" target="_blank" rel="nofollow"> Gonnella R, Granato M, Farina A et al. PKC theta and p38 MAPK activate the EBV lytic cycle through autophagy induction. Biochim. Biophys. Acta. 2015-03-27 [PMID: 25827954] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25825498" target="_blank" rel="nofollow"> Mohanty S, Jagannathan L, Ganguli G et al. A mycobacterial phosphoribosyltransferase promotes bacillary survival by inhibiting oxidative stress and autophagy pathways in macrophages and zebrafish J. Biol. Chem. 2015-03-30 [PMID: 25825498] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="WB, IHC-P" data-species="Human, Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25804753" target="_blank" rel="nofollow"> Sharifi MN, Mowers EE, Drake LE, Macleod KF. Measuring autophagy in stressed cells. Methods Mol. Biol. 2015-03-25 [PMID: 25804753] (WB, IHC-P, Human, Mouse) </a></td> <td valign="top">WB, IHC-P</td> <td valign="top">Human, Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25795167" target="_blank" rel="nofollow"> Roux C, Aligny C, Lesueur C et al. NMDA receptor blockade in the developing cortex induces autophagy-mediated death of immature cortical GABAergic interneurons: An ex vivo and in vivo study in Gad67-GFP mice. Exp. Neurol. 2015-03-17 [PMID: 25795167] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25753040" target="_blank" rel="nofollow"> Prosser SL, Morrison CG. Centrin2 regulates CP110 removal in primary cilium formation. J. Cell Biol. 2015-03-16 [PMID: 25753040] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="IHC-P" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25708836" target="_blank" rel="nofollow"> Carames B, Olmer M, Kiosses WB, Lotz M. The relationship of autophagy defects and cartilage damage during joint aging in a mouse model Arthritis & rheumatology. 2015-02-23 [PMID: 25708836] (IHC-P, Mouse) </a></td> <td valign="top">IHC-P</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25669150" target="_blank" rel="nofollow"> Reed M, Morris SH, Owczarczyk AB, Lukacs NW. Deficiency of autophagy protein Map1-LC3b mediates IL-17-dependent lung pathology during respiratory viral infection via ER stress-associated IL-1 Mucosal. Immunol 2015-02-11 [PMID: 25669150]<br /><br />Details:<br />Using the DyLight 550 conjugated version of NB110-53818, catalog number NB110-53818R. </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25650339" target="_blank" rel="nofollow"> Park E, Park MH, Na HS, Chung J. Xylitol induces cell death in lung cancer A549 cells by autophagy Biotechnol. Lett. 2015-02-04 [PMID: 25650339] (WB, Human)<br /><br />Details:<br />ATG5 antibody used in WB application for the detection of Atg5- Atg12 conjugates in lysates of A549 cells which were subjected to induction of autophagy with Xylitol (cells pretreated with 5 mM of 3-MA for 1 hour prior to treatments with 1 uM rapamycin or 6% xylitol for 6 hours or 24 hours). Xylitol induced autophay to a level which was comparable to rapamycin and the data is shown in Figure 5c and 5d. </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25643395" target="_blank" rel="nofollow"> Binotti B, Pavlos NJ, Riedel D et al. The GTPase Rab26 links synaptic vesicles to the autophagy pathway Elife. 2015-02-17 [PMID: 25643395] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25622137" target="_blank" rel="nofollow"> Lin HH. In Vitro and in Vivo Atheroprotective Effects of Gossypetin against Endothelial Cell Injury by Induction of Autophagy. Chem Res Toxicol. 2015-01-29 [PMID: 25622137] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="KO, WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25587484" target="_blank" rel="nofollow"> Distinct Lysosome Phenotypes Influence Inflammatory Function in Peritoneal and Bone Marrow-Derived Macrophages. Weber K, Schilling JD Int J Inflam [PMID: 25587484] (KO, WB, Mouse) </a></td> <td valign="top">KO, WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25585051" target="_blank" rel="nofollow"> Malhotra R, Warne JP, Salas E et al. Loss of Atg12, but not Atg5, in pro-opiomelanocortin neurons exacerbates diet-induced obesity Autophagy. 2015-01-13 [PMID: 25585051] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25498006" target="_blank" rel="nofollow"> Varga M, Fodor E, Vellai T. Autophagy in zebrafish. Methods. 2014-12-09 [PMID: 25498006] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25485521" target="_blank" rel="nofollow"> Sun KT, Chen MY, Tu MG et al. MicroRNA-20a regulates autophagy related protein-ATG16L1 in hypoxia-induced osteoclast differentiation. Bone. 2014-12-05 [PMID: 25485521] (WB, Mouse)<br /><br />Details:<br />p62/SQSTM1 antibody used for WB on RAW264.7 cells subjected to RANKL and M-CSF mediated osteoclast differentiation as well as hypoxic stress (Fig. 1E ) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="ELISA" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25484078" target="_blank" rel="nofollow"> Kraya AA, Piao S, Xu X et al. Identification of secreted proteins that reflect autophagy dynamics within tumor cells. Autophagy 2015-01-01 [PMID: 25484078] (ELISA, Human) </a></td> <td valign="top">ELISA</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25375375" target="_blank" rel="nofollow"> Kao C, Chao A, Tsai Cl et al. Bortezomib enhances cancer cell death by blocking the autophagic flux through stimulating ERK phosphorylation Cell Death Dis et al. 2014-11-07 [PMID: 25375375] (WB, Human)<br /><br />Details:<br />LC3B/MAP1LC3B antibody used for WB in experiments involving human ovarian cancer cell lines TOV112D, TOV21G, OV90, SKOV3, MDAH2774, ES2, BR and BG1 cells. </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25355898" target="_blank" rel="nofollow"> El-Hage N, Rodriguez M, Dever Sm et al. HIV-1 and morphine regulation of autophagy in microglia: Limited interactions in the context of HIV-1 infection and opioid abuse J. Virol. 2014-10-29 [PMID: 25355898] (WB, Human)<br /><br />Details:<br />ATG5 antibody used for WB at 1:1000 dilution on lysates of primary human microglial cells that were treated or not with HIV-1SF162 macrophage (M)-tropic strain and/or Morphine for 1, 3 or 5 days (Figure 1B). </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB, IHC-P" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25341032" target="_blank" rel="nofollow"> Lin Hh, Lin Sm, Chung Y et al. Dynamic involvement of ATG5 in cellular stress responses. Cell Death Dis. 2014-10-24 [PMID: 25341032] (WB, IHC-P, Mouse) </a></td> <td valign="top">WB, IHC-P</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25323583" target="_blank" rel="nofollow"> Rozman S, Yousefi S, Oberson K et al. The generation of neutrophils in the bone marrow is controlled by autophagy. Cell Death Differ. 2014-10-17 [PMID: 25323583] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25293350" target="_blank" rel="nofollow"> Liao Cl, Chen Cm, Chang Yz et al. Pine (Pinus morrisonicola Hayata) needle Extracts Sensitize GBM8901 Human Glioblastoma Cells to Temozolomide by Downregulating Autophagy and O(6)-Methylguanine-DnA Methyltransferase Expression. J. Agric. Food Chem. 2014-10-29 [PMID: 25293350] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Primate"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25142602" target="_blank" rel="nofollow"> Granato M, Santarelli R, Farina A et al. EBV blocks the autophagic flux and appropriates the autophagic machinery to enhance viral replication. J Virol. 2014-08-20 [PMID: 25142602] (WB, Primate) </a></td> <td valign="top">WB</td> <td valign="top">Primate</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/25046114" target="_blank" rel="nofollow"> Ligeon LA, Moreau K, Barois N et al. Role of VAMP3 and VAMP7 in the commitment of Yersinia pseudotuberculosis to LC3-associated pathways involving single- or double-membrane vacuoles. Autophagy 2014-09-01 [PMID: 25046114] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24928681" target="_blank" rel="nofollow"> Montaigne D, Marechal X, Coisne A et al. Myocardial Contractile Dysfunction is Associated with Impaired Mitochondrial Function and Dynamics in Type 2 Diabetic but not in Obese Patients. Circulation. 2014-06-13 [PMID: 24928681] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Bovine"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24895572" target="_blank" rel="nofollow"> Zielniok K, Motyl T, Gajewska M. Functional Interactions between 17beta-Estradiol and Progesterone Regulate Autophagy during Acini Formation by Bovine Mammary Epithelial Cells in 3D Cultures. BioMed Research International. 2014-05-07 [PMID: 24895572] (WB, Bovine) </a></td> <td valign="top">WB</td> <td valign="top">Bovine</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24875860" target="_blank" rel="nofollow"> Yang Annan, Rajeshkumar N V, Wang Xiaoxu et al. Autophagy is critical for pancreatic tumor growth and progression in tumors with p53 alterations. Cancer Discov. 2014-05-29 [PMID: 24875860] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24813611" target="_blank" rel="nofollow"> Fang EF, Scheibye-Knudsen M, Brace LE et al. Defective Mitophagy in XPA via PARP-1 Hyperactivation and NAD(+)/SIRT1 Reduction. Cell. 2014-05-08 [PMID: 24813611] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="IP, WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24705551" target="_blank" rel="nofollow"> Bejarano E, Yuste A, Patel B et al. Connexins modulate autophagosome biogenesis. Nat. Cell Biol. 2014-04-06 [PMID: 24705551] (IP, WB, Mouse) </a></td> <td valign="top">IP, WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24458007" target="_blank" rel="nofollow"> Feng W, Chang C, Luo D et al. Dissection of autophagy in human platelets. Autophagy 2014-04-01 [PMID: 24458007] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24441423" target="_blank" rel="nofollow"> Lee E, Koo Y, Ng A et al. Autophagy is essential for cardiac morphogenesis during vertebrate development. Autophagy 2014-04-01 [PMID: 24441423] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24376535" target="_blank" rel="nofollow"> Townsend KN, Spowart JE, Huwait H et al. Markers of T Cell Infiltration and Function Associate with Favorable Outcome in Vascularized High-Grade Serous Ovarian Carcinoma. PLoS One 2013-12-23 [PMID: 24376535] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24262968" target="_blank" rel="nofollow"> Pei J, Zhao M, Ye Z et al. Autophagy enhances the replication of classical swine fever virus in vitro. Autophagy 2014-01-01 [PMID: 24262968] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24189100" target="_blank" rel="nofollow"> Wang Y, Hu Z et al. MTOR inhibition attenuates DNA damage and apoptosis through autophagy-mediated suppression of CREB1. Autophagy 2013-01-12 [PMID: 24189100] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24149440" target="_blank" rel="nofollow"> Bertolin G, Ferrando-Miguel R et al. The TOMM machinery is a molecular switch in PINK1 and PARK2/PARKIN-dependent mitochondrial clearance. Autophagy 2013-01-11 [PMID: 24149440] (ICC/IF, Human) </a></td> <td valign="top">ICC/IF</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24145555" target="_blank" rel="nofollow"> Nah J, Pyo JO, Jung S et al. BECN1/Beclin 1 is recruited into lipid rafts by prion to activate autophagy in response to amyloid beta 42. Autophagy 2013-12-01 [PMID: 24145555] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24116161" target="_blank" rel="nofollow"> Shounak Baksi, Nihar R. Jana, Nitai Pada Bhattacharyya, Debashis Mukhopadhyay, Kah-Leong Lim Grb2 Is Regulated by Foxd3 and Has Roles in Preventing Accumulation and Aggregation of Mutant Huntingtin PLoS ONE 2013-10-08 [PMID: 24116161] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td> Karanasios E, Ktistakis NT. Studying Autophagy: List of Useful Antibodies Produced via a Community Effort. Autophagy at the Cell, Tissue and Organismal Level. 2016-04-24 </td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td> Gibson J. In vivo imaging and analysis of host-pathogen interactions of intracellular pathogens Thesis 2017-01-01 (WB, Zebrafish) </td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24577098" target="_blank" rel="nofollow"> Belleudi F, Purpura V, Caputo S, Torrisi MR FGF7/KGF regulates autophagy in keratinocytes Autophagy. 2014-02-25 [PMID: 24577098] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24528867" target="_blank" rel="nofollow"> Jabir MS, Ritchie ND, Li D et al. Caspase-1 Cleavage of the TLR Adaptor TRIF Inhibits Autophagy and beta-Interferon Production during Pseudomonas aeruginosa Infection. Cell Host Microbe 2014-02-17 [PMID: 24528867] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24466199" target="_blank" rel="nofollow"> Haldar AK, Piro AS, Pilla DM, Coers J. The E2-like conjugation enzyme Atg3 promotes binding of IRG and Gbp proteins to Chlamydia- and Toxoplasma-containing vacuoles and host resistance. PLoS ONE 2014-01-27 [PMID: 24466199] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24443716" target="_blank" rel="nofollow"> Choi Soyoung, Shin Hyejin, Song Haengseok, Lim Hyunjung Jade. Suppression of autophagic activation in the mouse uterus by estrogen and progesterone. J Endocrinol. 2014-03-07 [PMID: 24443716] (Mouse) </a></td> <td valign="top"></td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Zebrafish"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24317199" target="_blank" rel="nofollow"> Varga M, Sass M, Papp D et al. Autophagy is required for zebrafish caudal fin regeneration. Cell Death Differ 2013-12-06 [PMID: 24317199] (WB, Zebrafish) </a></td> <td valign="top">WB</td> <td valign="top">Zebrafish</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24277826" target="_blank" rel="nofollow"> Liu Y, Shoji-Kawata S, Sumpter RM Jr et al. Autosis is a Na+,K+-ATPase-regulated form of cell death triggered by autophagy-inducing peptides, starvation, and hypoxia-ischemia. Proc Natl Acad Sci U S A. 2013-11-25 [PMID: 24277826] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF, WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24240988" target="_blank" rel="nofollow"> Martinez-Lopez N, Athonvarangkul D, Mishall P et al. Autophagy proteins regulate ERK phosphorylation. Nat Commun. 2013-11-18 [PMID: 24240988] (ICC/IF, WB, Mouse) </a></td> <td valign="top">ICC/IF, WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24198074" target="_blank" rel="nofollow"> Cha HH, Hwang JR, Kim HY et al. Autophagy Induced by Tumor Necrosis Factor alpha Mediates Intrinsic Apoptosis in Trophoblastic Cells. Reprod Sci. 2013-11-06 [PMID: 24198074] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24160177" target="_blank" rel="nofollow"> Hollomon MG, Gordon N, Santiago-O Farrill JM, Kleinerman ES. Knockdown of autophagy-related protein 5, ATG5, decreases oxidative stress and has an opposing effect on camptothecin-induced cytotoxicity in osteosarcoma cells. BMC Cancer. 2013-10-26 [PMID: 24160177] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF" data-species="Mouse"> <td> Reed M. Requirement of autophagy proteins Beclin-1 and Map1-LC3b in the induction of innate and adaptive immune responses to respiratory syncytial virus infection Thesis 2014-01-01 (ICC/IF, Mouse)<br /><br />Details:<br />This reference used the DyLight 550 version of NB110-53818. </td> <td valign="top">ICC/IF</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24100123" target="_blank" rel="nofollow"> Roy K, Raychaudhuri M, Chakrabarti O, Mukhopadhyay D. Growth Factor Receptor-Bound Protein 2 Promotes Autophagic Removal of Amyloid-beta Protein Precursor Intracellular Domain Overload in Neuronal Cells. J Alzheimers Dis. 2013-10-07 [PMID: 24100123] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24086672" target="_blank" rel="nofollow"> Granato M, Santarelli R, Lotti LV et al. JNK and Macroautophagy Activation by Bortezomib Has a Pro-Survival Effect in Primary Effusion Lymphoma Cells. PLoS One. 2013-09-26 [PMID: 24086672] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/24012002" target="_blank" rel="nofollow"> Lucin Kurt M, O'brien Caitlin E, Bieri Gregor et al. Microglial beclin 1 regulates retromer trafficking and phagocytosis and is impaired in Alzheimer's disease. Neuron 2013-01-01 [PMID: 24012002] (IF/IHC, Mouse) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23965851" target="_blank" rel="nofollow"> Cufi S, Vazquez-Martin A, Oliveras-Ferraros C et al. The anti-malarial chloroquine overcomes Primary resistance and restores sensitivity to Trastuzumab in HER2-positive breast cancer. Sci Rep. 2013-08-22 [PMID: 23965851] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23918802" target="_blank" rel="nofollow"> Artal-Martinez de Narvajas A, Gomez TS, Zhang JS et al. Epigenetic regulation of autophagy by the methyltransferase G9a. Mol Cell Biol 2013-10-01 [PMID: 23918802] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23907538" target="_blank" rel="nofollow"> Martinez-Lopez N, Athonvarangkul D, Sahu S et al. Autophagy in Myf5+ progenitors regulates energy and glucose homeostasis through control of brown fat and skeletal muscle development. EMBO Rep 2013-08-02 [PMID: 23907538] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23894332" target="_blank" rel="nofollow"> Essick EE, Wilson RM, Pimentel DR et al. Adiponectin Modulates Oxidative Stress-Induced Autophagy in Cardiomyocytes. PLoS One 2013-07-19 [PMID: 23894332] (WB, Rat) </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23894198" target="_blank" rel="nofollow"> Reed M, Morris SH, Jang S et al. Autophagy-Inducing Protein Beclin-1 in Dendritic Cells Regulates CD4 T Cell Responses and Disease Severity during Respiratory Syncytial Virus Infection. J Immunol 2013-07-26 [PMID: 23894198] (ICC/IF, Mouse)<br /><br />Details:<br />Using the DyLight 550 conjugated version of NB110-53818, catalog number NB110-53818R. </a></td> <td valign="top">ICC/IF</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23884556" target="_blank" rel="nofollow"> Morgan-Bathke M, Lin HH, Chibly AM et al. Deletion of ATG5 Shows a Role of Autophagy in Salivary Homeostatic Control. J Dent Res 2013-07-24 [PMID: 23884556] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23800883" target="_blank" rel="nofollow"> Zhang C, He Y, Okutsu M et al. Autophagy is involved in adipogenic differentiation by repressesing proteasome-dependent PPARy2 degradation. Am J Physiol Endocrinol Metab. 2013-08-01 [PMID: 23800883] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23768496" target="_blank" rel="nofollow"> Benjamin JL, Sumpter R Jr, Levine B, Hooper LV. Intestinal Epithelial Autophagy Is Essential for Host Defense against Invasive Bacteria. Cell Host Microbe 2013-06-12 [PMID: 23768496] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23740229" target="_blank" rel="nofollow"> Ciccia F, Accardo-Palumbo A, Rizzo A et al. Evidence that autophagy, but not the unfolded protein response, regulates the expression of IL-23 in the gut of patients with ankylosing spondylitis and subclinical gut inflammation. Ann Rheum Dis 2013-06-05 [PMID: 23740229] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23733886" target="_blank" rel="nofollow"> Sorrentino V, Nelson JK, Maspero E et al. The LXR-IDOL axis defines a clathrin, caveolae, and dynamin-independent endocytic route for LDLR internalization and lysosomal degradation. J Lipid Res 2013-06-03 [PMID: 23733886] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23691217" target="_blank" rel="nofollow"> Fedorova LV, Sodhi K, Gatto-Weis C et al. Peroxisome Proliferator-Activated Receptor delta Agonist, HPP593, Prevents Renal Necrosis under Chronic Ischemia. PLoS One 2013-05-15 [PMID: 23691217] (WB, Rat) </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23681233" target="_blank" rel="nofollow"> Notte A, Ninane N, Arnould T, Michiels C. Hypoxia counteracts taxol-induced apoptosis in MDA-MB-231 breast cancer cells: role of autophagy and JNK activation. Cell Death Dis. 2013-01-01 [PMID: 23681233] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23658518" target="_blank" rel="nofollow"> Laforge M, Limou S, Harper F et al. DRAM Triggers Lysosomal Membrane Permeabilization and Cell Death in CD4(+) T Cells Infected with HIV. PLoS Pathog 2013-05-01 [PMID: 23658518] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23519075" target="_blank" rel="nofollow"> Amir M, Zhao E, Fontana L et al. Inhibition of hepatocyte autophagy increases tumor necrosis factor-dependent liver injury by promoting caspase-8 activation Cell Death Differ 2013-03-22 [PMID: 23519075] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Rat"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23446737" target="_blank" rel="nofollow"> Long L, Yang X, Southwood M et al. Chloroquine Prevents Progression of Experimental Pulmonary Hypertension via Inhibition of Autophagy and Lysosomal Bmpr-II Degradation. Circ Res 2013-02-27 [PMID: 23446737] (WB, Rat) </a></td> <td valign="top">WB</td> <td valign="top">Rat</td> </tr><tr class="lined revfil hidden" data-application="IHC-P, WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23434181" target="_blank" rel="nofollow"> Yen YT, Yang HR, Lo HC et al. Enhancing autophagy with activated protein C and rapamycin protects against sepsis-induced acute lung injury. Surgery 2013-02-19 [PMID: 23434181] (IHC-P, WB, Mouse) </a></td> <td valign="top">IHC-P, WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23427266" target="_blank" rel="nofollow"> Fu M, St-Pierre P, Shankar J et al. Regulation of mitophagy by the Gp78 E3 ubiquitin ligase. Mol Biol Cell 2013-04-01 [PMID: 23427266] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23364696" target="_blank" rel="nofollow"> Shoji-Kawata S, Sumpter R, Leveno M et al. Identification of a candidate therapeutic autophagy-inducing peptide. Nature. 2013-02-14 [PMID: 23364696]<br /><br />Details:<br />Tat-beclin 1 (L-amino acid) / Tat-Beclin 1 L11 (NBP2-49886) and Tat–beclin 1 (D-amino acid)/Tat-Beclin 1 D11, Retroinverso form (NBP2-49888) along with the control peptide Tat-scrambled (L-amino acid)/Tat-Beclin 1 L11S Peptide, Scrambled Control (NBP2-49887) were tested in-vivo for the induction of autophagy. 6-week-old GFP-LC3 transgenic mice, and normal or CHIKV and WNV Egypt strain virus infected 5-day-old GFP-LC3 mice were injected intra-peritoneally (i.p.) with these Tat-beclin derivative peptides at a dose of 20 mg/Kg body weight (5.3uM/Kg). Brain tissues were analyzed using IHC-Frozen and Western blot analysis for measuring cell death (TUNEL Assay) and p62 expression respectively. Toxicity of these peptides was assessed in 6-day-old C57BL/6J mice via daily injections of Tat-scrambled (L-amino acid, Tat-Beclin 1 L11S) or Tat-beclin 1 (L-amino acid, Tat-Beclin 1 L11) at 15 mg kg-1 and Tat–beclin 1 (D-amino acid, Tat-Beclin 1 D11) at a dose of 20 mg/Kg body weight for 2 weeks (Figure 4). </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23359526" target="_blank" rel="nofollow"> Brennan GP, Jimenez-Mateos EM, McKiernan RC et al. Transgenic Overexpression of 14-3-3 Zeta Protects Hippocampus against Endoplasmic Reticulum Stress and Status Epilepticus In Vivo. PLoS One 2013-01-01 [PMID: 23359526] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23348250" target="_blank" rel="nofollow"> Shi JM, Bai LL, Zhang DM et al. Saxifragifolin D induces the interplay between apoptosis and autophagy in breast cancer cells through ROS-dependent endoplasmic reticulum stress. Biochem Pharmacol 2013-01-21 [PMID: 23348250] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23341467" target="_blank" rel="nofollow"> Chen Y, Sawada O, Kohno H et al. Autophagy protects the retina from light-induced degeneration. J Biol Chem 2013-01-22 [PMID: 23341467] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23242206" target="_blank" rel="nofollow"> Zhu S, Cao L, Yu Y et al. Inhibiting autophagy potentiates the anticancer activity of IFN1@/ IFNalpha in chronic myeloid leukemia cells. Autophagy 2012-12-14 [PMID: 23242206] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23195496" target="_blank" rel="nofollow"> Kang R, Tang D, Lotze MT, Zeh Iii HJ. Autophagy is required for IL-2-mediated fibroblast growth Exp Cell Res 2012-11-27 [PMID: 23195496] (Mouse) </a></td> <td valign="top"></td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="IF/IHC" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/23039021" target="_blank" rel="nofollow"> Curtis S, Jones CJ, Garrod A et al. Identification of Autophagic Vacuoles and Regulators of Autophagy in Villous Trophoblast from Normal Term Pregnancies and in Fetal Growth Restriction J Matern Fetal Neonatal Med 2012-10-08 [PMID: 23039021] (IF/IHC, Human) </a></td> <td valign="top">IF/IHC</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22934255" target="_blank" rel="nofollow"> Fujii S, Hara H, Araya J et al. Insufficient autophagy promotes bronchial epithelial cell senescence in chronic obstructive pulmonary disease. Oncoimmunology. [PMID: 22934255] (WB, Human)<br /><br />Details:<br />Citation using the HRP form of this antibody. </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22929803" target="_blank" rel="nofollow"> Zang Y, Thomas SM, Chan ET et al. Carfilzomib and ONX 0912 Inhibit Cell Survival and Tumor Growth of Head and Neck Cancer and Their Activities Are Enhanced by Suppression of Mcl-1 or Autophagy Clin Cancer Res 2012-10-15 [PMID: 22929803] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22875977" target="_blank" rel="nofollow"> Chakrabarti A, Ghosh PK, Banerjee S et al. RNase L Triggers Autophagy in Response to Viral Infections J Virol 2012-10-01 [PMID: 22875977] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22840404" target="_blank" rel="nofollow"> Cannizzo ES, Clement CC, Morozova K et al. Age-Related Oxidative Stress Compromises Endosomal Proteostasis Cell Rep 2012-07-26 [PMID: 22840404] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22732841" target="_blank" rel="nofollow"> Sandilands E, Serrels B, Wilkinson S, Frame MC. Src-dependent autophagic degradation of Ret in FAK-signalling-defective cancer cells EMBO Rep 2012-06-26 [PMID: 22732841] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22730392" target="_blank" rel="nofollow"> Garcia AG, Wilson RM, Heo J et al. Interferon-gamma ablation exacerbates myocardial hypertrophy in diastolic heart failure Am J Physiol Heart Circ Physiol 2012-09-01 [PMID: 22730392] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22509024" target="_blank" rel="nofollow"> Kang R, Loux T, Tang D, Schapiro NE, Vernon P, Livesey KM, Krasinskas A, Lotze MT, Zeh HJ 3rd. The expression of the receptor for advanced glycation endproducts (RAGE) is permissive for early pancreatic neoplasia. Proc Natl Acad Sci U S A;109(18):7031-6. 2012-05-01 [PMID: 22509024] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22440612" target="_blank" rel="nofollow"> Razani B, Feng C, Coleman T et al. Autophagy Links Inflammasomes to Atherosclerotic Progression Cell Metabolism 2012-04-04 [PMID: 22440612] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22405854" target="_blank" rel="nofollow"> Sharara-Chami RI, Zhou Y, Ebert S et al. Epinephrine deficiency results in intact glucose counter-regulation, severe hepatic steatosis and possible defective autophagy in fasting mice The International Journal of Biochemistry & Cell Biology 2012-06-01 [PMID: 22405854] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22395361" target="_blank" rel="nofollow"> Yu Y, Yang L, Zhao M et al. Targeting microRNA-30a-mediated autophagy enhances imatinib activity against human chronic myeloid leukemia cells Leukemia 2012-03-07 [PMID: 22395361] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22223827" target="_blank" rel="nofollow"> Zhang Y, Morgan MJ, Chen K et al. Induction of autophagy is essential for monocyte-macrophage differentiation. Blood. 2012-01-05 [PMID: 22223827] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22150682" target="_blank" rel="nofollow"> Vigano A, Vasso M, Caretti A, Bravata V, Terraneo L, Fania C, Capitanio D, Samaja M, Gelfi C. Protein modulation in mouse heart under acute and chronic hypoxia. Proteomics;11(21):4202-17. 2011-11-01 [PMID: 22150682] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/22127234" target="_blank" rel="nofollow"> Cufi S, Vazquez-Martin A, Oliveras-Ferraros C et al. Autophagy positively regulates the CD44(+) CD24(-/low) breast cancer stem-like phenotype. Cell Cycle 2011-11-15 [PMID: 22127234] (Human) </a></td> <td valign="top"></td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21954231" target="_blank" rel="nofollow"> Lee H, Noh J-Y, Oh Y et al. IRE1 plays an essential role in ER stress-mediated aggregation of mutant huntingtin via the inhibition of autophagy flux. Human Molecular Genetics. 2011-09-27 [PMID: 21954231] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21946213" target="_blank" rel="nofollow"> Liang JJ, Yu CY, Liao CL, Lin YL. Autophagy is involved in the early step of Japanese encephalitis virus infection. Microbes Infect 2011-01-01 [PMID: 21946213] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21690574" target="_blank" rel="nofollow"> Ling Y-H, Aracil M, Zou Y et al. PM02734 Induces Caspase-Independent Cell Death Associated with Features of Autophagy, Inhibition of the Akt/mTOR Signaling Pathway, and Activation of DAP Kinase. Clin Cancer Res. 2011-06-20 [PMID: 21690574] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21572516" target="_blank" rel="nofollow"> Raveh B, London N, Zimmerman L, Schueler-Furman O. Rosetta FlexPepDock ab-initio: simultaneous folding, docking and refinement of peptides onto their receptors. PLoS One 2011-01-01 [PMID: 21572516] (WB) </a></td> <td valign="top">WB</td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21555592" target="_blank" rel="nofollow"> Dash R, Azab B, Quinn B et al. Apogossypol derivative BI-97C1 (Sabutoclax) targeting Mcl-1 sensitizes prostate cancer cells to mda-7/IL-24-mediated toxicity Proc Natl Acad Sci U S A 2011-05-24 [PMID: 21555592] (WB, Human) </a></td> <td valign="top">WB</td> <td valign="top">Human</td> </tr><tr class="lined revfil hidden" data-application="ICC/IF" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21363932" target="_blank" rel="nofollow"> Lee J-E, Oh H-A, Song H et al. Autophagy Regulates Embryonic Survival During Delayed Implantation. Endocrinology;152(5):2067-75. 2011-05-01 [PMID: 21363932] (ICC/IF, Mouse) </a></td> <td valign="top">ICC/IF</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21353614" target="_blank" rel="nofollow"> Elgendy M, Sheridan C, Brumatti G et al. Oncogenic Ras-induced expression of Noxa and Beclin-1 promotes autophagic cell death and limits clonogenic survival. Mol Cell. 2011-04-01 [PMID: 21353614] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse, Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21342660" target="_blank" rel="nofollow"> Herd HL, Malugin A, Ghandehari H. Silica nanoconstruct cellular toleration threshold in vitro. J Control Release;153(1):40-8. 2011-07-15 [PMID: 21342660] (WB, Mouse, Human) </a></td> <td valign="top">WB</td> <td valign="top">Mouse, Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21228817" target="_blank" rel="nofollow"> Wang RC, Levine B. Calcipotriol Induces Autophagy in HeLa Cells and Keratinocytes. J Invest Dermatol. 2011-01-01 [PMID: 21228817] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21075354" target="_blank" rel="nofollow"> Mostowy S, Bonazzi M, Hamon MA et al. Entrapment of intracytosolic bacteria by septin cage-like structures. Cell Host Microbe 2010-11-18 [PMID: 21075354] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="ICC/IF, WB" data-species="Mouse, Primate"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/21062285" target="_blank" rel="nofollow"> Brady OA, Meng P, Zheng Y et al. egulation of TDP-43 aggregation by phosphorylation and p62/SQSTM1 J Neurochem 2011-01-01 [PMID: 21062285] (ICC/IF, WB, Mouse, Primate) </a></td> <td valign="top">ICC/IF, WB</td> <td valign="top">Mouse, Primate</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/19898471" target="_blank" rel="nofollow"> Travassos LH, Carneiro LA, Ramjeet M et al. Nod1 and Nod2 direct autophagy by recruiting ATG16L1 to the plasma membrane at the site of bacterial entry. Nat Immunol 2010-01-01 [PMID: 19898471] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/19654319" target="_blank" rel="nofollow"> Fujimoto K, Hanson PT, Tran H et al. Autophagy Regulates Pancreatic Beta Cell Death in Response to Pdx1 Deficiency and Nutrient Deprivation. J Biol Chem;284(40):27664-27673. 2009-01-01 [PMID: 19654319] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/19571141" target="_blank" rel="nofollow"> Lee J-A, Gao F-B. Inhibition of Autophagy Induction Delays Neuronal Cell Loss Caused by Dysfunctional ESCRT-III in Frontotemporal Dementia. J Neurosci. 2009-01-01 [PMID: 19571141] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/19305394" target="_blank" rel="nofollow"> English L, Chemali M, Duron J et al. Autophagy enhances the presentation of endogenous viral antigens on MHC class I molecules during HSV-1 infection. Nat Immunol 2009-05-01 [PMID: 19305394] (WB, Mouse) </a></td> <td valign="top">WB</td> <td valign="top">Mouse</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/18849966" target="_blank" rel="nofollow"> Cadwell K, Liu JY, Brown SL et al. A key role for autophagy and the autophagy gene Atg16l1 in mouse and human intestinal Paneth cells. Nature;456(7219):259-63. 2008-11-13 [PMID: 18849966] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr class="lined revfil hidden" data-application="WB" data-species="Mouse, Human"> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/18196969" target="_blank" rel="nofollow"> Pyo JO, Nah J, Kim HJ et al. Compensatory activation of ERK1/2 in Atg5-deficient mouse embryo fibroblasts suppresses oxidative stress-induced cell death. Autophagy;4(3):315-21. 2008-04-01 [PMID: 18196969] (WB, Mouse, Human) </a></td> <td valign="top">WB</td> <td valign="top">Mouse, Human</td> </tr><tr class="lined revfil hidden" data-application="" data-species=""> <td><a href="http://www.ncbi.nlm.nih.gov/pubmed/18073215" target="_blank" rel="nofollow"> Wang, Y, R Singh et al. Loss of Macroautophagy Promotes or Prevents Fibroblast Apoptosis Depending on the Death Stimulus. J. Biol. Chem. 283: 4766-4777. 2008-01-01 [PMID: 18073215] </a></td> <td valign="top"></td> <td valign="top"></td> </tr><tr><td colspan="3" align="center"> <a class="pubs_showall">Show All 285 Publications.</a> <a class="pubs_collapse" style="display:none;">Collapse Publications.</a> </td></tr></tbody> </table> </div> </div><a id="ReviewsSection"></a> <h2 class="greyHead2">Reviews for <span>ATG5 Antibody (NB110-53818)</span> (8) <span style="display:none;">4.3</span><span style="display:none;">8</span></h2> <div class="ds_info"> <div class="bottom15"> <strong>Average Rating: 4.3</strong> <div class="dsSprite_stars4"></div> (Based on 8 reviews) </div> <div><div class="ds_info">We have 8 reviews tested in 3 species: Human, Mouse, Rat.</div> <div class="align-right"> <button class="greybutton btn_width" id="novusreview" name="novusreview" onclick="window.location='/reviews/NB110-53818'"; >Submit a Review</button><br /> </div> </div> <div class="blueHead"><strong>Reviews using NB110-53818:</strong></div> <div class="filterParent"><div class="reviews_filterList"> <div class="blueHead">Filter by Applications</div><div class="filter_line"> <input type="checkbox" value="application" class="review_filterCheckbox" data-filter="WB"> <div style="display:inline;">WB</div> (7)</div><div class="filter_line"> <input type="checkbox" value="application" class="review_filterCheckbox" data-filter="IHC-P"> <div style="display:inline;">IHC-P</div> (1)</div><div class="filter_clear" data-type="review" data-filter="application">All Applications</div></div> <div class="reviews_filterList"> <div class="blueHead">Filter by Species</div><div class="filter_line"> <input type="checkbox" value="species" class="review_filterCheckbox" data-filter="Human"> <div style="display:inline;">Human</div> (2)</div><div class="filter_line"> <input type="checkbox" value="species" class="review_filterCheckbox" data-filter="Mouse"> <div style="display:inline;">Mouse</div> (4)</div><div class="filter_line"> <input type="checkbox" value="species" class="review_filterCheckbox" data-filter="Rat"> <div style="display:inline;">Rat</div> (1)</div><div class="filter_clear" data-type="review" data-filter="species">All Species</div></div></div><div id="reviews_list"> <table class="wide lightPad tablesorter" id="reviews_list_table"> <thead> <tr> <th>Images</th> <th>Ratings</th> <th>Applications</th> <th>Species</th> <th>Date</th> <th>Details</th> </tr> </thead> <tbody><tr class="top-lined revfil" data-rating="Excellent" data-application="WB" data-species="Human"> <td><a href="https://www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_61781.jpg" title="W-B of the lysate of DU145 cells - control and ATG5 KD" class="colorbox" title="Western Blot" > <img loading="lazy" src="https://www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_61781.jpg" class="reviews_imageBorder" width="75" alt="Western Blot ATG5 NB110-53818" /> <br/><span class="enlarge" href="#"><div class="dsSprite_magGlass"></div> Enlarge</span></a><meta content="06/27/2023" /> </td> <td> <span style="display:none;">5</span> <div class="dsSprite_stars5" content="5"></div> <div class="revby">reviewed by:<br />Armen Petrosyan</div> </td> <td title="Western Blot">WB</td> <td>Human</td> <td>06/27/2023</td> <td align="left"> <div class="dsSprite_expandReviews"><div class="expandReviewData">View</div></div> <div class="reviews_showMoreContent"> <div class="reviews_showMoreContentInner"><h2 class="greyHead">Summary</h2> <table class="even wide top"><tr><td class="text_bold">Application</td><td>Western Blot</td></tr><tr><td class="text_bold">Sample Tested</td><td>DU145 human prostate carcinoma cell line</td></tr><tr><td class="text_bold">Species</td><td>Human</td></tr><tr><td class="text_bold">Lot</td><td>P</td></tr></table> </div> </div> </td> </tr><tr class="top-lined revfil" data-rating="Very Good" data-application="WB" data-species="Mouse"> <td><a href="https://www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_53501_0_0.png" title="WT Liver samples" class="colorbox" title="Western Blot" > <img loading="lazy" src="https://www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_53501_0_0.png" class="reviews_imageBorder" width="75" alt="Western Blot ATG5 NB110-53818" /> <br/><span class="enlarge" href="#"><div class="dsSprite_magGlassBlue"></div> Enlarge</span></a><meta content="09/15/2020" /> </td> <td> <span style="display:none;">4</span> <div class="dsSprite_stars4" content="4"></div> <div class="revby">reviewed by:<br />Verified Customer</div> </td> <td title="Western Blot">WB</td> <td>Mouse</td> <td>09/15/2020</td> <td align="left"> <div class="dsSprite_expandReviews"><div class="expandReviewData">View</div></div> <div class="reviews_showMoreContent"> <div class="reviews_showMoreContentInner"><h2 class="greyHead">Summary</h2> <table class="even wide top"><tr><td class="text_bold">Application</td><td>Western Blot</td></tr><tr><td class="text_bold">Sample Tested</td><td>Liver tissue</td></tr><tr><td class="text_bold">Species</td><td>Mouse</td></tr><tr><td class="text_bold">Lot</td><td>I-1</td></tr></table> </div> </div> </td> </tr><tr class="top-lined revfil" data-rating="Very Good" data-application="WB" data-species="Mouse"> <td> <meta content="03/31/2018" /> </td> <td> <span style="display:none;">4</span> <div class="dsSprite_stars4" content="4"></div> <div class="revby">reviewed by:<br />Verified Customer</div> </td> <td title="Western Blot">WB</td> <td>Mouse</td> <td>03/31/2018</td> <td align="left"> <div class="dsSprite_expandReviews"><div class="expandReviewData">View</div></div> <div class="reviews_showMoreContent"> <div class="reviews_showMoreContentInner"><h2 class="greyHead">Summary</h2> <table class="even wide top"><tr><td class="text_bold">Application</td><td>Western Blot</td></tr><tr><td class="text_bold">Sample Tested</td><td>Mouse Colon</td></tr><tr><td class="text_bold">Species</td><td>Mouse</td></tr><tr><td class="text_bold">Lot</td><td>M-1</td></tr></table> </div> </div> </td> </tr><tr class="top-lined revfil" data-rating="Very Good" data-application="WB" data-species="Human"> <td><a href="https://www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_38091_0.jpg" title="100 ng/ml LPS treated human primary hepatocytes" class="colorbox" title="Western Blot" > <img loading="lazy" src="https://www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_38091_0.jpg" class="reviews_imageBorder" width="75" alt="Western Blot ATG5 NB110-53818" /> <br/><span class="enlarge" href="#"><div class="dsSprite_magGlassBlue"></div> Enlarge</span></a><meta content="12/15/2017" /> </td> <td> <span style="display:none;">4</span> <div class="dsSprite_stars4" content="4"></div> <div class="revby">reviewed by:<br />Verified Customer</div> </td> <td title="Western Blot">WB</td> <td>Human</td> <td>12/15/2017</td> <td align="left"> <div class="dsSprite_expandReviews"><div class="expandReviewData">View</div></div> <div class="reviews_showMoreContent"> <div class="reviews_showMoreContentInner"><h2 class="greyHead">Summary</h2> <table class="even wide top"><tr><td class="text_bold">Application</td><td>Western Blot</td></tr><tr><td class="text_bold">Sample Tested</td><td>human parimary hepatocytes,Human primary hepatocytes</td></tr><tr><td class="text_bold">Species</td><td>Human</td></tr><tr><td class="text_bold">Lot</td><td>K-3</td></tr></table><h2 class="greyHead">Comments</h2> <table class="even wide top"><tr><td class="text_bold">Comments</td><td>100 ng/ml LPS treated human primary hepatocytes</td></tr></table> </div> </div> </td> </tr><tr class="top-lined revfil" data-rating="Very Good" data-application="IHC-P" data-species=""> <td><a href="https://images.novusbio.com/reviews/Immunohistochemistry-Paraffin_ATG5-Antibody-(NB110-53818)-(01-ml)_NB110-53818_10841.jpg" title="Mouse knee" class="colorbox" title="Immunohistochemistry-Paraffin" > <img loading="lazy" src="https://images.novusbio.com/reviews/Immunohistochemistry-Paraffin_ATG5-Antibody-(NB110-53818)-(01-ml)_NB110-53818_10841.jpg" class="reviews_imageBorder" width="75" alt="Immunohistochemistry-Paraffin ATG5 NB110-53818" /> <br/><span class="enlarge" href="#"><div class="dsSprite_magGlass"></div> Enlarge</span></a><meta content="10/04/2014" /> </td> <td> <span style="display:none;">4</span> <div class="dsSprite_stars4" content="4"></div> <div class="revby">reviewed by:<br />Merissa Olmer</div> </td> <td title="Immunohistochemistry-Paraffin">IHC-P</td> <td></td> <td>10/04/2014</td> <td align="left"> <div class="dsSprite_expandReviews"><div class="expandReviewData">View</div></div> <div class="reviews_showMoreContent"> <div class="reviews_showMoreContentInner"><h2 class="greyHead">Summary</h2> <table class="even wide top"><tr><td class="text_bold">Application</td><td>Immunohistochemistry-Paraffin</td></tr><tr><td class="text_bold">Lot</td><td>E-3</td></tr></table> </div> </div> </td> </tr><tr class="top-lined revfil" data-rating="Very Good" data-application="WB" data-species="Mouse"> <td><a href="https://images.novusbio.com/reviews/review_image_24061_3696_1348236262.jpg" title="Western Blot image for NB110-53818" class="colorbox" title="Western Blot" > <img loading="lazy" src="https://images.novusbio.com/reviews/review_image_24061_3696_1348236262.jpg" class="reviews_imageBorder" width="75" alt="Western Blot ATG5 NB110-53818" /> <br/><span class="enlarge" href="#"><div class="dsSprite_magGlassBlue"></div> Enlarge</span></a><meta content="09/21/2012" /> </td> <td> <span style="display:none;">4</span> <div class="dsSprite_stars4" content="4"></div> <div class="revby">reviewed by:<br />Ann Marie Santiago</div> </td> <td title="Western Blot">WB</td> <td>Mouse</td> <td>09/21/2012</td> <td align="left"> <div class="dsSprite_expandReviews"><div class="expandReviewData">View</div></div> <div class="reviews_showMoreContent"> <div class="reviews_showMoreContentInner"><h2 class="greyHead">Summary</h2> <table class="even wide top"><tr><td class="text_bold">Application</td><td>Western Blot</td></tr><tr><td class="text_bold">Sample Tested</td><td>Murine hepatoma</td></tr><tr><td class="text_bold">Species</td><td>Mouse</td></tr><tr><td class="text_bold">Lot</td><td>e-2</td></tr></table> </div> </div> </td> </tr><tr class="top-lined revfil" data-rating="Very Good" data-application="WB" data-species="Rat"> <td><a href="https://images.novusbio.com/reviews/review_image_16486_1786_1324414494.jpg" title="Western Blot image for NB110-53818" class="colorbox" title="Western Blot" > <img loading="lazy" src="https://images.novusbio.com/reviews/review_image_16486_1786_1324414494.jpg" class="reviews_imageBorder" width="75" alt="Western Blot ATG5 NB110-53818" /> <br/><span class="enlarge" href="#"><div class="dsSprite_magGlass"></div> Enlarge</span></a><meta content="12/20/2011" /> </td> <td> <span style="display:none;">4</span> <div class="dsSprite_stars4" content="4"></div> <div class="revby">reviewed by:<br />Verified Customer</div> </td> <td title="Western Blot">WB</td> <td>Rat</td> <td>12/20/2011</td> <td align="left"> <div class="dsSprite_expandReviews"><div class="expandReviewData">View</div></div> <div class="reviews_showMoreContent"> <div class="reviews_showMoreContentInner"><h2 class="greyHead">Summary</h2> <table class="even wide top"><tr><td class="text_bold">Application</td><td>Western Blot</td></tr><tr><td class="text_bold">Sample Tested</td><td>Rat Cardiomyocyte</td></tr><tr><td class="text_bold">Species</td><td>Rat</td></tr></table> </div> </div> </td> </tr><tr class="top-lined revfil" data-rating="Excellent" data-application="WB" data-species="Mouse"> <td> <meta content="11/16/2011" /> </td> <td> <span style="display:none;">5</span> <div class="dsSprite_stars5" content="5"></div> <div class="revby">reviewed by:<br />Verified Customer</div> </td> <td title="Western Blot">WB</td> <td>Mouse</td> <td>11/16/2011</td> <td align="left"> <div class="dsSprite_expandReviews"><div class="expandReviewData">View</div></div> <div class="reviews_showMoreContent"> <div class="reviews_showMoreContentInner"><h2 class="greyHead">Summary</h2> <table class="even wide top"><tr><td class="text_bold">Application</td><td>Western Blot</td></tr><tr><td class="text_bold">Sample Tested</td><td>Mouse</td></tr><tr><td class="text_bold">Species</td><td>Mouse</td></tr></table> </div> </div> </td> </tr></tbody> </table> </div><br /> </div> <div class="clear"></div></div> <div class="ds_tab_content equalbottom" id="content_protocols-faqs"> <a id="protocols-faqs"></a><h2 class="greyHead2">Product General Protocols</h2> <a id="protocols"></a> <div class="ds_info"> View specific protocols for ATG5 Antibody (NB110-53818): <ul><li><a href="/support/protocols/western-blot-protocol-for-atg5-antibody-nb110-53818">Western Blot protocol for ATG5 Antibody (NB110-53818)</a></li></ul>Find general support by application which include: protocols, troubleshooting, illustrated assays, videos and webinars. <ul><li><a href="/support/support-by-application/elisa/protocol.html">ELISA</a></li><li><a href="/support/support-by-application/flow-cytometry/protocol.html">Flow Cytometry</a></li><li><a href="/support/support-by-application/immunocytochemistry/protocol.html">Immunocytochemistry/ Immunofluorescence</a></li><li><a href="/support/support-by-application/immunohistochemistry-paraffin/protocol.html">Immunohistochemistry-Paraffin</a></li><li><a href="/support/support-by-application/immunoprecipitation/protocol.html">Immunoprecipitation</a></li><li><a href="/support/support-by-application/western-blot/protocol.html">Western Blot</a></li><li><a href="/support/support-by-application.html">View all Protocols, Troubleshooting, Illustrated assays and Webinars.</a></li> </ul></div><h2 class="greyHead2 ds_info">Video Protocols</h2> <a id="videos"></a> <div class="ds_info"><div class="movie-cell"> <span class="movie-title">WB Video Protocol</span><br/> <meta content ="https://www.youtube.com/watch?v=uFu8aie4QFI" /> <a href="https://www.youtube.com/embed/uFu8aie4QFI?rel=0&wmode=transparent" class="youtube"> <div class="reduce sprite_WBvideo"></div> </a> </div><div class="movie-cell"> <span class="movie-title">ICC/IF Video Protocol</span><br/> <meta content ="https://www.youtube.com/watch?v=5AcrhhHmQZs" /> <a href="https://www.youtube.com/embed/5AcrhhHmQZs?rel=0&wmode=transparent" class="youtube"> <div class="reduce sprite_ICC-IFvideo"></div> </a> </div></div> <div class="clear"></div><h2 class="greyHead2">FAQs for ATG5 Antibody (NB110-53818). (Showing 1 - <span id="faqcnt">5</span> of 5 FAQs).</h2> <a id="faqs"></a> <ol id="faq_list"><li class="faqwrap "> <span class="faq_question">I am interested in testing your anti ATG5 (NB110-53818SS) for Immunofluorescence in MDCK cell (canine epithelial cell line). I noticed you report reactivity of the antibody against several species but not dog. Do you know if the Ab will react against canine genome? Also for IF what fixation do you recommend?</span> <ul class="faq_answer"> <li>The applications and species listed for any one of our antibodies are ones we have tested and validated. Canine is not listed as it has not been tested and therefore we cannot guarantee its cross reactivity. If you would be interested in testing this antibody in canine, we can recommend our Innovator's Reward. Our Innovator's Reward is offered to reward researchers for testing new species and applications with our products. Learn more about our Innovators Reward Program. Also, please use this link to view our Immunofluorescence protocol which explains the fixation method that we recommend.</li> </ul> </li><li class="faqwrap "> <span class="faq_question">Our customer is interested in this ATG5 antibody (cat. no. NB110-53818). Would you please confirm that this antibody would recognize ATG5 alone, as well as ATG5-ATG12 conjugate?</span> <ul class="faq_answer"> <li>The antibody was raised against a peptide corresponding to the N-terminal of ATG5. It should recognize ATG5 alone but it appears that ATG5 is rarely found alone in the cell.</li> </ul> </li><li class="faqwrap "> <span class="faq_question">The arrow in the data sheet points to the ATG5/ATG12 band of 56 kDa. There is also a band of 33 kDa which I guess is ATG5? Could you explain the meaning of detecting the ATG5/ATG12 conjugate in preference to ATG5? Does the antibody cross-react with ATG12?</span> <ul class="faq_answer"> <li>The Western blot image you are referring to illustrates the ATG5/ATG12 conjugate, which is formed during autophagy. During autophagy ATG5 is covalently bonds ATG12 in a ubiquitous reaction. The lysate that was used was meant to illustrate the ability to detect autophagy by Western blot via ATG5/ATG12. It is possible to detect free ATG5 in cell lysates, although it is not seen in this Western blot. The lower 2 bands do not correspond to ATG5. Our ATG5 antibody does not detect ATG12, which runs at about 23 kDa.</li> </ul> </li><li class="faqwrap "> <span class="faq_question">Does this antibody detect free ATG5 monomer in HeLa or HEK 293 cells? </span> <ul class="faq_answer"> <li>This antibody is able to detect ATG5 (unconjugated form) at ~33 kDa and the ATG12-conjugated form at ~56 kDa. In the Western blot image we have on our website, we show the antibody's ability to detect the autophagy induced conjugate ATG5/ATG12. A customer review image shows both the conjugated and unconjugated ATG5 in rat cardiomyocytes. Several publications show this antibody working in Western blot with mouse and human samples. We are not sure if in any of the publications HeLa or HEK 293 cells specifically were used, but if the ATG5 protein is present, this product will detect it in Western blot.</li> </ul> </li><li class="faqwrap "> <span class="faq_question">Would you please help confirm if NB110-53818 has been tested by IHC with frozen sections?</span> <ul class="faq_answer"> <li>NB110-53818 has been tested with paraffin-embedded tissue, but we have not validated this antibody for IHC with frozen tissue sections.</li> </ul> </li></ol> <div class="clear"></div></div> <div class="ds_tab_content equalbottom" id="content_supportresearch"> <a id="supportresearch"></a> <a id="positivecontrollysates"></a> <h2 class="greyHead2">Control Lysate(s)</h2> <div class="ds_info"> <table class="wide"><tr class="lined"> <td><a href="atg5-lysate_nbl1-07799">ATG5 Overexpression Lysate</a></td> <td class="text_right"> <div class="add-to-cart" data-type="anc_btnonly" data-catbase="NBL1-07799" data-return="atg5-antibody_nb110-53818#supportresearch" data-produrl="atg5-antibody_nb110-53818" data-catnums="NBL1-07799" ></div> </td> </tr> </table> </div><table cellpadding="0" cellspacing="0"><tr><td valign="top" class="width50"> <h2 class="greyHead2">Secondary Antibodies</h2> <a id="secondaryantibodies"></a> <div class="ds_info"> <ul class="information-list"><li><a href="/product-type/secondary-antibodies?species=Rabbit&facet_conjugate=HRP">Anti-Rabbit HRP Labeled Antibodies</a></li><li><a href="/product-type/secondary-antibodies?species=Rabbit&facet_conjugate=FITC">Anti-Rabbit FITC Labeled Antibodies</a></li><li><a href="/product-type/secondary-antibodies?species=Rabbit&facet_conjugate=Biotin">Anti-Rabbit Biotin Labeled Antibodies</a></li><li> </li> <li><a href="/product-type/secondary-antibodies#fq=species%3A%22Rabbit%22">View all of our anti-Rabbit Secondary Antibodies</a></li> </ul> </div></td><td width="5"> </td><td valign="top"> <h2 class="greyHead2" >Isotype Controls</h2> <a id="isotypecontrols"></a> <div class="ds_info"> <ul class="ds_noDotList"><li><a href="/product-type/isotype-controls#fq=species%3A%22Rabbit%22">Rabbit Isotype Controls</a></li><li> </li> <li><a href="/product-type/isotype-controls">View all of our Isotype Control Products</a></li> </div></td></tr></table><h2 class="greyHead2">Additional ATG5 Products</h2> <a id="addtlalphaprods"></a> <div class="ds_info"> <div> <span style="display:none;">Array NB110-53818</span> <ul class="ds_noDotList"><li> <a href="/primary-antibodies/atg5">ATG5 Antibodies</a></li><li> <a href="/lysates/atg5">ATG5 Lysate</a></li><li> <a href="/proteins/atg5">ATG5 Proteins</a></li></ul> </div> </div><table cellpadding="0" cellspacing="0" class="width100"><tr></tr></table><table cellpadding="0" cellspacing="0" class="width100"><tr><td valign="top"><h2 class="greyHead2">Research Areas for ATG5 Antibody (NB110-53818)</h2> <a id="research_areas"></a> <div class="ds_info">Find related products by research area.</div> <div class="ds_info"> <ul class="ds_noDotList"><li class="left width"><a href="/research-areas/apoptosis">Apoptosis</a></li><li class="left width"><a href="/research-areas/autophagy">Autophagy</a></li><li class="left width"><a href="/research-areas/cancer">Cancer</a></li><li class="left width"><a href="/research-areas/Cardiovascular-Biology">Cardiovascular Biology</a></li><li class="left width"><a href="/research-areas/cell-biology">Cell Biology</a></li><li class="left width"><a href="/research-areas/protein-turnover-ubiquitin-proteasome-pathway">Ubiquitin Proteasome Pathway</a></li></ul> </div></td></tr></table><h2 class="greyHead2">Blogs on ATG5. <span class="blogdiv">Showing 1-<span id="blogcnt">10</span> of 32 blog posts - <a class="blogs_showall">Show all blog posts</a>.</span></h2> <a id="blogsect"></a> <div class="ds_info"><a href="/antibody-news/tag/atg5">Check out the latest blog posts on ATG5</a>.</div> <div class="ds_info"> <table id="blogs_list_table"> <tbody> <tr class=" blogwrap "> <td> <strong><a href="/antibody-news/liver-ask1-activates-autophagy-to-protect-against-hepatic-fat-accumulation-non-alcoholic-steatohepatitis-and-fibrosis.">Liver ASK1 activates autophagy to protect against hepatic fat accumulation, non-alcoholic steatohepatitis and fibrosis</a></strong><br/> <span> By Jamshed Arslan, Pharm. D., PhD. The most common chronic liver disorder worldwide is non-alcoholic fatty liver disease (NAFLD). This obesity-linked disorder can manifest as hepatic fat accumulation (steatosis) wit...  <a href="/antibody-news/liver-ask1-activates-autophagy-to-protect-against-hepatic-fat-accumulation-non-alcoholic-steatohepatitis-and-fibrosis.">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href=""></a></strong><br/> <span>  <a href="">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href=""></a></strong><br/> <span>  <a href="">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href=""></a></strong><br/> <span>  <a href="">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href="/antibody-news/animal-models-to-study-autophagy">Animal Models to Study Autophagy</a></strong><br/> <span> By Christina Towers, PhD What is autophagy?Autophagy is the catabolic process that degrades cytoplasmic material via the lysosome. The process of macroautophagy was originally characterized in yeast, where the...  <a href="/antibody-news/animal-models-to-study-autophagy">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href="/antibody-news/losing-memory-toxicity-from-mutant-app-and-amyloid-beta-explain-the-hippocampal-neuronal-damage-in-alzheimers-disease">Losing memory: Toxicity from mutant APP and amyloid beta explain the hippocampal neuronal damage in Alzheimer's disease</a></strong><br/> <span>  By Jamshed Arslan Pharm.D.  Alzheimer's disease (AD) is an irreversible brain disorder that destroys memory and thinking skills. The telltale signs of AD brains are extracellular deposits of amy...  <a href="/antibody-news/losing-memory-toxicity-from-mutant-app-and-amyloid-beta-explain-the-hippocampal-neuronal-damage-in-alzheimers-disease">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href=""></a></strong><br/> <span>  <a href="">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href="/antibody-news/autophagy-independent-roles-of-the-core-atg-proteins">Autophagy independent roles of the core ATG proteins</a></strong><br/> <span> By Christina Towers, PhD. Autophagy and ATG ProteinsAutophagy is a nutrient recycling process that cells use to fuel metabolism, particularly in response to nutrient deprivation. It is critical for removal of dam...  <a href="/antibody-news/autophagy-independent-roles-of-the-core-atg-proteins">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href="/antibody-news/antibodies/key-targets-in-apoptosis-necroptosis-and-autophagy">Key Targets in Apoptosis, Necroptosis, and Autophagy</a></strong><br/> <span>Cell death/recycling pathways such as apoptosis, necroptosis, and autophagy are an integral part of the growth, development, homeostasis as well as the pathophysiology in the life of living organisms. These signaling pathways are highly regulated and ...  <a href="/antibody-news/antibodies/key-targets-in-apoptosis-necroptosis-and-autophagy">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap "> <td> <strong><a href="/antibody-news/antibodies/the-role-of-parkin-and-autophagy-in-retinal-pigment-epithelial-cell-rpe-degradation">The role of Parkin and autophagy in retinal pigment epithelial cell (RPE) degradation</a></strong><br/> <span>The root of Parkinson’s disease (PD) points to a poorly regulated electron transport chain leading to mitochondrial damage, where many proteins need to work cohesively to ensure proper function. The two key players of this pathway are PINK1, ...  <a href="/antibody-news/antibodies/the-role-of-parkin-and-autophagy-in-retinal-pigment-epithelial-cell-rpe-degradation">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/the-use-of-actin-as-a-loading-control-in-research-on-fruiting-body-development-and-vegetative-growth-in-sordaria-macrospora-research">The use of actin as a loading control in research on fruiting-body development and vegetative growth in Sordaria macrospora research</a></strong><br/> <span>Sordaria macrospora is a filamentous fungus that serves as very useful system for scientific research due to a short life cycle and easy manipulation. Just like any other model organism, it is important to have an effective loading control to va...  <a href="/antibody-news/antibodies/the-use-of-actin-as-a-loading-control-in-research-on-fruiting-body-development-and-vegetative-growth-in-sordaria-macrospora-research">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/required-proteins-for-p62-sqstm1-regulation-and-a-role-for-p62-sqstm1-in-neuronal-autophagy">Required proteins for p62/SQSTM1 regulation and a role for p62/SQSTM1 in neuronal autophagy</a></strong><br/> <span>Autophagy is a crucial cellular process that clears the cell of protein aggregates, toxins, and damaged cell products. Accumulation of toxins, damaged cell products and unwanted proteins has been proven to play a role in aging and many forms of dis...  <a href="/antibody-news/antibodies/required-proteins-for-p62-sqstm1-regulation-and-a-role-for-p62-sqstm1-in-neuronal-autophagy">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/the-role-of-lc3b-and-autophagy-in-alcohol-induced-liver-disease">The role of LC3B and autophagy in alcohol induced liver disease </a></strong><br/> <span>Autophagy is a crucial intracellular pathway that manages the degradation and recycling of long-lived proteins in the cell. The LC3 (or light chain 3) family is composed of three members, LC3A, LC3B and LC3C. Upon autophagy induction, LC3 is cleave...  <a href="/antibody-news/antibodies/the-role-of-lc3b-and-autophagy-in-alcohol-induced-liver-disease">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/wipi1-an-essential-regulator-of-early-autophagosome-assembly">WIPI1 - An essential regulator of early autophagosome assembly</a></strong><br/> <span>WD repeat domain phosphoinositide-interacting protein 1 (WIPI) is involved in the lysosomal degradation of cytoplasmic components during starvation-induced autophagy. WIPI1 is a seven bladed beta-propeller protein that provides a scaffold for the ...  <a href="/antibody-news/antibodies/wipi1-an-essential-regulator-of-early-autophagosome-assembly">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg4c-a-regulator-of-the-early-steps-of-autophagosome-assembly">ATG4C - A regulator of the early steps of autophagosome assembly</a></strong><br/> <span>Autophagy is an important cellular process that maintains homeostasis by degrading and recycling damaged proteins and organelles. Autophagy receptors, such as p62/SQSTM1, recognize these intracellular cargo and mediate their engulfment by the doubl...  <a href="/antibody-news/antibodies/atg4c-a-regulator-of-the-early-steps-of-autophagosome-assembly">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg16l2-an-autophagy-related-protein-with-unknown-functions">ATG16L2 - An autophagy-related protein with unknown functions</a></strong><br/> <span>Autophagy is a process by which cells degrade and recycle damaged organelles or misfolded proteins. These various cargo are engulfed in a double-membrane structure called the autophagosome. The autophagosome then fuses with the lysosome to facilit...  <a href="/antibody-news/antibodies/atg16l2-an-autophagy-related-protein-with-unknown-functions">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg4d-a-regulator-of-autophagy-and-apoptosis">ATG4D - A regulator of autophagy and apoptosis</a></strong><br/> <span>Autophagy is an essential cellular process whereby damaged proteins and organelles are degraded and recycled. Autophagy, while happening constantly at a basal level, is tightly regulated and can be further induced under cellular stress. One of the ...  <a href="/antibody-news/antibodies/atg4d-a-regulator-of-autophagy-and-apoptosis">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg4b-a-cysteine-protease-involved-in-autophagosome-elongation">ATG4B - a cysteine protease involved in autophagosome elongation</a></strong><br/> <span>Autophagy can be broken down into 4 main stages: phagophore nucleation, autophagosome elongation, autophagosome docking and fusion with a lysosome, and vesicle breakdown and degradation. ATG4B is one of four ATG4 homologs (ATG4A, ATG4B, ATG4C, and ...  <a href="/antibody-news/antibodies/atg4b-a-cysteine-protease-involved-in-autophagosome-elongation">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg16l1-a-key-player-in-the-development-of-the-autophagosome">ATG16L1 - a key player in the development of the autophagosome</a></strong><br/> <span>Like apoptosis, autophagy is a highly regulated physiologic process that involves cellular degradation and recycling of organelles and macromolecules. Autophagy is a survival mechanism induced by states of stress, starvation, and infection. A do...  <a href="/antibody-news/antibodies/atg16l1-a-key-player-in-the-development-of-the-autophagosome">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg5-an-essential-regulator-of-autophagosome-assembly">ATG5 - an essential regulator of autophagosome assembly</a></strong><br/> <span>Autophagy is important for the removal of damaged organelles or proteins as well as for the regulation of cellular homeostasis in response to stress. Proteins or organelles that are targeted for degradation are engulfed in a double-membrane structu...  <a href="/antibody-news/antibodies/atg5-an-essential-regulator-of-autophagosome-assembly">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg7-an-e1-enzyme-for-the-ubiquitin-like-autophagy-proteins">ATG7 - an E1 enzyme for the ubiquitin-like autophagy proteins</a></strong><br/> <span>Autophagy is an essential cellular process that maintains homeostasis through the degradation and recycling of cytoplasmic organelles and macromolecules. Substrates targeted for autophagy are engulfed in a double-membrane structure called the auto...  <a href="/antibody-news/antibodies/atg7-an-e1-enzyme-for-the-ubiquitin-like-autophagy-proteins">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/p62-sqstm1-targeting-ubiquitinated-proteins-for-autophagic-degradation">p62/SQSTM1 - targeting ubiquitinated proteins for autophagic degradation </a></strong><br/> <span>During autophagy ubiquitinated cargo or substrates are engulfed in a double-membrane autophagosome and transported to the lysosome for degradation. This process is important for maintaining cellular homeostasis and for degrading damaged organelles...  <a href="/antibody-news/antibodies/p62-sqstm1-targeting-ubiquitinated-proteins-for-autophagic-degradation">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg12-a-ubiquitin-like-protein-essential-for-autophagosome-assembly">ATG12 - a ubiquitin-like protein essential for autophagosome assembly</a></strong><br/> <span>Atg12 is a ubiquitin-like protein that plays an essential role in cellular homeostasis by regulating the degradation and recycling of cytoplasmic organelles and macromolecules. Atg12 is one of two ubiquitin-like protein systems that is required du...  <a href="/antibody-news/antibodies/atg12-a-ubiquitin-like-protein-essential-for-autophagosome-assembly">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/lc3-lc3b-measuring-autophagosome-formation-and-autophagic-flux">LC3/LC3B - measuring autophagosome formation and autophagic flux </a></strong><br/> <span>Microtubule-associated protein-1 light chain 3 (LC3/LC3B) is a ubiquitin-like protein involved in the formation of the autophagosome. It is homologous to the yeast Atg8 protein. Autophagosomes are important for the degradation and recycling of intr...  <a href="/antibody-news/antibodies/lc3-lc3b-measuring-autophagosome-formation-and-autophagic-flux">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg9a-early-marker-autophagosome-assembly">ATG9A - early marker autophagosome assembly</a></strong><br/> <span>ATG9A is the only essential integral membrane protein involved in autophagy. ATG9A contains six transmembrane domains and initiates the assembly of autophagosomes. The autophagosome is a double-membrane structure that engulfs and eventually degrade...  <a href="/antibody-news/antibodies/atg9a-early-marker-autophagosome-assembly">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/comprehensive-autophagy-research-tools-new-catalog-available-now">Comprehensive Autophagy Research Tools - New Catalog Available Now!</a></strong><br/> <span>Autophagy, a protein degradation process through autophagosome-lysosomal pathway, is important for cellular homeostasis and plays a role in many diseases. To help researchers learn more about this process and the products available for its study, N...  <a href="/antibody-news/antibodies/comprehensive-autophagy-research-tools-new-catalog-available-now">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/essential-to-death-atg5-autophagy-protein-5-apoptosis-specific-protein-asp">Essential to Death: ATG5 (autophagy protein 5, apoptosis-specific protein ASP)</a></strong><br/> <span>The ATG5 protein belongs to the ATG autophagy regulator family. This family controls the highly conserved cell's homeostatic response to a wide variety of both self- and foreign-originating cellular stimuli. ATG5 itself is ubiquitously expressed in mo...  <a href="/antibody-news/antibodies/essential-to-death-atg5-autophagy-protein-5-apoptosis-specific-protein-asp">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg5-roles-in-cellular-defense">ATG5: Roles in Cellular Defense</a></strong><br/> <span>ATG5, or Autophagy Related 5, is a protein crucial for autophagy. Autophagy is a mechanism in which dysfunctional or pathogenic cells or cellular components are degraded and sometimes recycled. This process happens when ATG5 conjugates with another pr...  <a href="/antibody-news/antibodies/atg5-roles-in-cellular-defense">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg5-autophagy-and-apoptosis">ATG5, Autophagy and Apoptosis</a></strong><br/> <span>ATG5 is a member of the ATG family that regulates autophagy, the evolutionary conserved homeostatic response to a diverse variety of self- and foreign-originating cellular stresses. ATG5 is ubiquitously expressed in cells and found co-localized with c...  <a href="/antibody-news/antibodies/atg5-autophagy-and-apoptosis">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/atg5-from-autophagy-to-alzheimers-disease">ATG5: From Autophagy to Alzheimer's Disease</a></strong><br/> <span>Autophagy is a conserved mechanism whereby cells form double membrane autophagosomes to sequester cytoplasmic components for subsequent destruction by fusion with lysosomes (eukaryotes) or vacuoles (yeast). Targets of autophagy include aging proteins,...  <a href="/antibody-news/antibodies/atg5-from-autophagy-to-alzheimers-disease">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/analyzing-lc3-in-western-blot">Analyzing LC3 in Western blot</a></strong><br/> <span>Microtubule-associated protein light chain 3 (LC3) is considered one of the definitive markers of autophagy, and its use is widespread in labs throughout the world. Despite its popularity, there are several considerations when employing LC3 antibodies...  <a href="/antibody-news/antibodies/analyzing-lc3-in-western-blot">Read full blog post.</a></span><br /><br /> </td> </tr> <tr class=" blogwrap hidden"> <td> <strong><a href="/antibody-news/antibodies/the-role-of-lc3-within-the-autophagic-pathway">The Role of LC3 within the Autophagic Pathway</a></strong><br/> <span>We at Novus Biologicals have a broad antibody database covering the area of autophagy - over 1400 reagents in total. Autophagy is the bulk degradation of cytoplasmic components - literally, self-digestion of the cell. Double-membrane vesicles, called ...  <a href="/antibody-news/antibodies/the-role-of-lc3-within-the-autophagic-pathway">Read full blog post.</a></span><br /><br /> </td> </tr></tbody> </table> </div><div class="ds_info"><span class="blogdiv">Showing 1-<span id="blogcnt">10</span> of 32 blog posts - <a class="blogs_showall">Show all blog posts</a>.</span></div> <div class="clear"></div></div> </div></div><div class="grid_6"><div class="ds_blue_border marTop26 equalbottom"><div class="datasheet-ads-container" ><a href="https://www.bio-techne.com/resources/blogs/citation-widget-find-products-used-in-literature" target="_blank"><img loading="lazy" src="https://images.novusbio.com/design/citation-app-banner-349x119-v3.jpg" alt="Read our latest blog and use the new citation tool on bio-techne.com" title="new citation tool" class="datasheet-adzone" loading="lazy"></a></div><a id="jump_recommended"></a> <h2 class="greyHead2">Customers Who Bought This Also Bought</h2> <div class="text_center"><div class="images2"><div id="ss_prev_sidebar" class="cycle-prev ds_rp_prev"><div class="pager_left_on"></div></div><div id="ss_next_sidebar" class="cycle-next ds_rp_next"><div class="pager_right_on"></div></div><div class="cycle-slideshow" data-cycle-fx="scrollHorz" data-cycle-timeout="0" data-cycle-prev="#ss_prev_sidebar" data-cycle-next="#ss_next_sidebar" data-cycle-slides="div.big_thumb_container" id="ds_customer_who_bought" ><div class="big_thumb_container" data-catnums="HAF008"> <div class="img_container"> <a href="/products/igg-antibody_haf008" title="Western blot shows detection of Rabbit Anti-Human/Mouse/Rat HSP60 Polyclonal Antibody (AF1800) using a 1:1000 dilution of HRP-conjugated Anti-Rabbit IgG Secondary Antibody (Catalog # HAF008). This experiment was conducted under reducing conditions and using Immunoblot Buffer Group 1." class="cust_bought" > <img loading="lazy" src="https://images.novusbio.com/images2/IgG_HAF008_Western_Blot_19080.jpg" title="Western blot shows detection of Rabbit Anti-Human/Mouse/Rat HSP60 Polyclonal Antibody (AF1800) using a 1:1000 dilution of HRP-conjugated Anti-Rabbit IgG Secondary Antibody (Catalog # HAF008). This experiment was conducted under reducing conditions and using Immunoblot Buffer Group 1." alt="Western blot shows detection of Rabbit Anti-Human/Mouse/Rat HSP60 Polyclonal Antibody (AF1800) using a 1:1000 dilution of HRP-conjugated Anti-Rabbit IgG Secondary Antibody (Catalog # HAF008). This experiment was conducted under reducing conditions and using Immunoblot Buffer Group 1." class="big_thumb" /> </a> </div> <div class="caption_container"><a href="/products/igg-antibody_haf008">Goat anti-Rabbit IgG Secondary Antibody [HRP]</a> <br />HAF008</div> <div style="text-align: right"><button class="greybutton" id="novusviewdatasheet" name="novusviewdatasheet" onclick="window.location='/products/igg-antibody_haf008';" >View Datasheet</button> </div> </div><div class="big_thumb_container" data-catnums="NB7160"> <div class="img_container"> <a href="/products/igg-h-l-antibody_nb7160" title="Western Blot: Goat anti-Rabbit IgG (H+L) Secondary Antibody [HRP] [NB7160] - Western blot showing vemurafenib treatment in BRAFV600E CRC cells inhibits fission mediator DRP1 with no significant effect on fusion proteins (Mfn1 & 2) using MFN-1 antibody (NBP1-51841) and corresponding secondary antibody, goat anti-rabbit IgG-HRP (NB7160). Image collected and cropped by CiteAb from the following publication (https://pubmed.ncbi.nlm.nih.gov/33738242)." class="cust_bought" > <img loading="lazy" src="https://images.novusbio.com/images/Goat-anti-Rabbit-IgG-H+L-Secondary-Antibody-HRP-Western-Blot-NB7160-img0001.jpg" title="Western Blot: Goat anti-Rabbit IgG (H+L) Secondary Antibody [HRP] [NB7160] - Western blot showing vemurafenib treatment in BRAFV600E CRC cells inhibits fission mediator DRP1 with no significant effect on fusion proteins (Mfn1 & 2) using MFN-1 antibody (NBP1-51841) and corresponding secondary antibody, goat anti-rabbit IgG-HRP (NB7160). Image collected and cropped by CiteAb from the following publication (https://pubmed.ncbi.nlm.nih.gov/33738242)." alt="Western Blot: Goat anti-Rabbit IgG (H+L) Secondary Antibody [HRP] [NB7160] - Western blot showing vemurafenib treatment in BRAFV600E CRC cells inhibits fission mediator DRP1 with no significant effect on fusion proteins (Mfn1 & 2) using MFN-1 antibody (NBP1-51841) and corresponding secondary antibody, goat anti-rabbit IgG-HRP (NB7160). Image collected and cropped by CiteAb from the following publication (https://pubmed.ncbi.nlm.nih.gov/33738242)." class="big_thumb" /> </a> </div> <div class="caption_container"><a href="/products/igg-h-l-antibody_nb7160">Goat anti-Rabbit IgG (H+L) Secondary Antibody [HRP]</a> <br />NB7160</div> <div style="text-align: right"><button class="greybutton" id="novusviewdatasheet" name="novusviewdatasheet" onclick="window.location='/products/igg-h-l-antibody_nb7160';" >View Datasheet</button> </div> </div><div class="big_thumb_container" data-catnums="NBP2-24891"> <div class="img_container"> <a href="/products/igg-isotype-control_nbp2-24891" title="Flow Cytometry: Rabbit IgG Isotype Control [NBP2-24891] - Intracellular FACS analysis of mouse TLR6 polyclonal antibody (red), rabbit isotype control (green), RAW cells alone (shaded). Two micrograms of antibodies were used. Goat anti-rabbit FITC (Novus, 20302) was used as secondary." class="cust_bought" > <img loading="lazy" src="https://images.novusbio.com/images/Rabbit--Mouse-IgG-Isotype-Control-Flow-Cytometry-NBP2-24891-img0001.jpg" title="Flow Cytometry: Rabbit IgG Isotype Control [NBP2-24891] - Intracellular FACS analysis of mouse TLR6 polyclonal antibody (red), rabbit isotype control (green), RAW cells alone (shaded). Two micrograms of antibodies were used. Goat anti-rabbit FITC (Novus, 20302) was used as secondary." alt="Flow Cytometry: Rabbit IgG Isotype Control [NBP2-24891] - Intracellular FACS analysis of mouse TLR6 polyclonal antibody (red), rabbit isotype control (green), RAW cells alone (shaded). Two micrograms of antibodies were used. Goat anti-rabbit FITC (Novus, 20302) was used as secondary." class="big_thumb" /> </a> </div> <div class="caption_container"><a href="/products/igg-isotype-control_nbp2-24891">Rabbit IgG Isotype Control</a> <br />NBP2-24891</div> <div style="text-align: right"><button class="greybutton" id="novusviewdatasheet" name="novusviewdatasheet" onclick="window.location='/products/igg-isotype-control_nbp2-24891';" >View Datasheet</button> </div> </div></div></div></div><div class="clear"></div><a id="jump_distributor"></a> <h2 class="greyHead2">Contact Information</h2> <div class="ds_info"> <div id="distributors"></div> </div> <div id="et_reload_trigger" style="display:none;">reload</div><h2 class="greyHead2">Product PDFs</h2><div class="silverHeadShort"> <span class="file"><a href="//resources.novusbio.com/protocols/Western-Blot-protocol-for-ATG5-Antibody-(NB110-53818).pdf" target="_blank" class="sprite_dsPDF"><span class="pdfSmaller"> </span></a></span> <span class="download-file-text" ><a href="//resources.novusbio.com/protocols/Western-Blot-protocol-for-ATG5-Antibody-(NB110-53818).pdf" target="_blank" class="datasheet-download sdsFile">Western Blot Protocol</a></span> </div><div class="silverHeadShort"> <span class="file"><a href="//aero.bio-techne.com/sds/pdf/nb110-53818" target="_blank" class="sprite_dsPDF"><span class="pdfSmaller"> </span></a></span> <span class="download-file-text" ><a href="//aero.bio-techne.com/sds/pdf/nb110-53818" target="_blank" class="datasheet-download sdsFile">SDS</a></span> </div><div class="silverHeadShort"> <span class="file"><a href="//resources.novusbio.com/manual/Manual-NB110-53818-30877537.pdf" target="_blank" class="sprite_dsPDF"><span class="pdfSmaller"> </span></a></span> <span class="download-file-text" ><a href="//resources.novusbio.com/manual/Manual-NB110-53818-30877537.pdf" target="_blank" class="datasheet-download sdsFile">Western Blot Protocol</a></span> </div><div class="silverHeadShort"> <span class="file"><a href="//www.novusbio.com/PDFs/NB110-53818.pdf" target="_blank" class="sprite_dsPDF"><span class="pdfSmaller"> </span></a></span> <span class="download-file-text" ><a href="//www.novusbio.com/PDFs/NB110-53818.pdf" target="_blank" class="datasheet-download">PDF Datasheet</a></span> </div><div class="silverHeadShort"> <span class="file"><a href="mailto:novus@novusbio.com?subject=Request%20CofA%20for%20NB110-53818" class="sprite_newDocument"><span class="downloadBlank"> </span></a></span> <span class="download-file-text"><a href="mailto:nb-technical@bio-techne.com?subject=Request%20CofA%20for%20NB110-53818&body=Specific%20catalog%20number(if multiple sizes):%0ALot%20Number:%0AAny%20additional%20products:">Request CofA</a></span> </div><h2 class="greyHead2">Calculators</h2> <div class="calc_wrapper"> <div class="dsSprite_calc"></div> <div class="fake_link" id="calc_reconstitution_link">Concentration Calculator</div> <div id="calc_reconstitution_wrapper" class="calc_function_wrapper"> <div class="calc_popup"> <div class="calc_close"> <div class="dsSprite_calc_close"></div> </div> <div class="calc_header">Concentration Calculator</div> <div id="reconstitution_calculator" class="calculator"> <div class="reconstitution_calculator_text" id="reconstitution_calculator_instructions"> <p>The concentration calculator allows you to quickly calculate the volume, mass or concentration of your vial. Simply enter your mass, volume, or concentration values for your reagent and the calculator will determine the rest.</p> </div> <div class="calc_section"> <label for="reconstitution_calculator_volume" class="calculator_label">Volume</label> <input id="reconstitution_calculator_volume" name="reconstitution_calculator_volume" type="text" maxlength="16" placeholder="volume" class="calculator_input calculator_text"/> <select id="reconstitution_calculator_volume_unit" class="calculator_input calculator_select"> <option value="ml">ml</option> <option value="ul" selected="selected">ul</option> </select> </div> <span class="calculator_equals calculator_operator">=</span> <div class="calc_section"> <label for="reconstitution_calculator_mass" class="calculator_label">Mass</label> <input id="reconstitution_calculator_mass" name="reconstitution_calculator_mass" type="text" maxlength="16" placeholder="mass" class="calculator_input calculator_text"/> <select id="reconstitution_calculator_mass_unit" class="calculator_input calculator_select"> <option value="mg">mg</option> <option value="ug" selected="selected">ug</option> <option value="ng">ng</option> </select> </div> <span class="calculator_divide calculator_operator">÷</span> <div class="calc_section"> <label for="reconstitution_calculator_concentration" class="calculator_label">Concentration</label> <input id="reconstitution_calculator_concentration" name="reconstitution_calculator_concentration" type="text" maxlength="16" placeholder="concentration" class="calculator_input calculator_text"/> <select id="reconstitution_calculator_concentration_unit" class="calculator_input calculator_select"> <option value="mg/ml">mg/ml</option> <option value="ug/ml" selected="selected">ug/ml</option> <option value="ng/ml">ng/ml</option> </select> </div> <div id="reconstitution_foot" class="calc_section"> <input type="submit" value="Calculate" id="button_reconstitution_calculator_calculate" class="calculator_button"/> </div> </div> </div> </div> </div> <h2 class="greyHead2">Recent Reviews</h2><div class="review_summary"> <div class="review_summary_left"> <div class="review_large_number">4.3</div> <div class="dsSprite_stars4"></div> </div> <div class="review_summary_right"> <table> <tbody><tr><td><div class="dsSprite_emptyStar"></div><div class="review_summary_star_number">5</div></td><td style="position:relative;width:155px;"><div class="review_bar star5" style="width:33%;"></div><div class="review_bar_value">2</div></td></tr><tr><td><div class="dsSprite_emptyStar"></div><div class="review_summary_star_number">4</div></td><td style="position:relative;width:155px;"><div class="review_bar star4" style="width:100%;"></div><div class="review_bar_value">6</div></td></tr><tr><td><div class="dsSprite_emptyStar"></div><div class="review_summary_star_number">3</div></td><td style="position:relative;width:155px;"><div class="review_bar star3" style="width:0%;"></div><div class="review_bar_value">0</div></td></tr><tr><td><div class="dsSprite_emptyStar"></div><div class="review_summary_star_number">2</div></td><td style="position:relative;width:155px;"><div class="review_bar star2" style="width:0%;"></div><div class="review_bar_value">0</div></td></tr><tr><td><div class="dsSprite_emptyStar"></div><div class="review_summary_star_number">1</div></td><td style="position:relative;width:155px;"><div class="review_bar star1" style="width:0%;"></div><div class="review_bar_value">0</div></td></tr> </tbody> </table> </div> <hr /><div class="single_review"><div class="review_summary_image"><a href="//www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_61781.jpg" title="W-B of the lysate of DU145 cells - control and ATG5 KD" class="colorbox" title="Western Blot" > <img loading="lazy" src="//www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_61781.jpg" class="reviews_imageBorder" width="75" alt="Western Blot ATG5 NB110-53818" /> <br/><span class="enlarge" href="#"><div class="dsSprite_magGlass"></div> Enlarge</span></a></div> <div class="review_summary_right"><table> <tbody> <tr> <td><div class="dsSprite_stars5" content="5"></div></td> <td>Armen Petrosyan<br />06/27/2023</td> </tr> <tr> <td class="review_summary_title">Application: </td> <td>WB<td> </tr> <tr> <td class="review_summary_title">Species: </td> <td>Human</td> </tr> </tbody> </table> <div class="text_right" style="margin-bottom:-8px;"><a href="#ReviewsSection">read this review</a></div></div></div> <hr /><div class="single_review"><div class="review_summary_image"><a href="//www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_53501_0_0.png" title="WT Liver samples" class="colorbox" title="Western Blot" > <img loading="lazy" src="//www.novusbio.com/sites/novusbio.com/files/reviews/review_nb110-53818_53501_0_0.png" class="reviews_imageBorder" width="75" alt="Western Blot ATG5 NB110-53818" /> <br/><span class="enlarge" href="#"><div class="dsSprite_magGlass"></div> Enlarge</span></a></div> <div class="review_summary_right"><table> <tbody> <tr> <td><div class="dsSprite_stars4" content="4"></div></td> <td>Verified Customer<br />09/15/2020</td> </tr> <tr> <td class="review_summary_title">Application: </td> <td>WB<td> </tr> <tr> <td class="review_summary_title">Species: </td> <td>Mouse</td> </tr> </tbody> </table> <div class="text_right" style="margin-bottom:-8px;"><a href="#ReviewsSection">read this review</a></div></div></div> <hr /><div class="single_review"><div class="review_summary_image"> </div> <div class="review_summary_right"><table> <tbody> <tr> <td><div class="dsSprite_stars4" content="4"></div></td> <td>Verified Customer<br />03/31/2018</td> </tr> <tr> <td class="review_summary_title">Application: </td> <td>WB<td> </tr> <tr> <td class="review_summary_title">Species: </td> <td>Mouse</td> </tr> </tbody> </table> <div class="text_right" style="margin-bottom:-8px;"><a href="#ReviewsSection">read this review</a></div></div></div> <hr /><div class="align-right" style="margin-right:10px;"> <a href="#ReviewsSection"> <button class="greybutton btn_width">read all the reviews</button> </a> </div> </div><h2 class="greyHead2">Bioinformatics</h2> <div class="ds_info"> <a id="tab1bioinformatics"></a> <div> <table class="ds_list_right wide top"> <tr class="lined"> <td><strong>Gene Symbol</strong></td> <td><a href="/gene-name/ATG5">ATG5</a></td> </tr></table> </div> </div> </div> </div><div class="clear"></div><noscript><form autocomplete="off" action="/products/atg5-antibody_nb110-53818" method="post" id="et-add-multiple-to-cart-form" accept-charset="UTF-8"><div><table class="sticky-enabled"> <thead><tr><th>Size</th><th>Price</th> </tr></thead> <tbody> <tr class="odd"><td><div class="atc_size" title="catalog # NB110-53818SS">0.025 ml</div><div data-msg='' class="atc_catnum">NB110-53818SS</div></td><td><div style="font-size:11px;"><a class="jump_distributor" href="#jump_distributor">Contact Your<br />Distributor</a></div></td> </tr> <tr class="even"><td colspan="3" class="stock_row">4-6 Business Days</td> </tr> <tr class="odd"><td><div class="atc_size" title="catalog # NB110-53818">0.1 ml</div><div data-msg='' class="atc_catnum">NB110-53818</div></td><td><div style="font-size:11px;"><a class="jump_distributor" href="#jump_distributor">Contact Your<br />Distributor</a></div></td> </tr> <tr class="even"><td colspan="3" class="stock_row">In Stock: 3-5 Business Days</td> </tr> </tbody> </table> <input type="hidden" name="form_build_id" value="form-l5Ru0iQCdzfYgpZ1gANAe2dJLtBH5DMvS71wPIZmfII" /> <input type="hidden" name="form_id" value="et_add_multiple_to_cart_form" /> </div></form></noscript> </div> </div> <div id="block-block-21" class="block block-block"> <div class="content">  <div class="embeddedServiceInvitation" id="snapins_invite" aria-live="assertive" role="dialog" aria-atomic="true" style="display: none;"> <div class="embeddedServiceInvitationHeader" aria-labelledby="snapins_titletext" aria-describedby="snapins_bodytext"> <img id="embeddedServiceAvatar" /> <span class="embeddedServiceTitleText" id="snapins_titletext">Need help?</span> <button type="button" id="closeInvite" class="embeddedServiceCloseIcon" aria-label="Exit invitation">×</button> </div> <div class="embeddedServiceInvitationBody"> <p id="snapins_bodytext">How can we help you?</p> </div> <div class="embeddedServiceInvitationFooter" aria-describedby="snapins_bodytext"> <button type="button" class="embeddedServiceActionButton" id="rejectInvite">Close</button> <button type="button" class="embeddedServiceActionButton" id="acceptInvite">Start Chat</button> </div> </div> </div> </div> </div> </div> </div> <div id="novus_footer_line"></div>  </div> <div class="container_16"> <div id="footer"> <div class="grid_16 text_center"> <div class="fp_horzline"></div> </div> <div class="clear"></div> <div class="grid_16"> <table class="footer_boxes"> <tr> <th>Popular Products</th> <th>Company Information</th> <th>Support</th> <th>Stay Connected</th> </tr> <tr> <td> <ul class='links'><li><a href="/productsearch/novus">Antibodies</a></li><li><a href="/product-type/secondary-antibodies">Secondary Antibodies</a></li><li><a href="/product-type/isotype-controls">Isotype Controls</a></li><li><a href="/product-type/peptides-and-proteins">Proteins and Peptides</a></li><li><a href="/product-type/elisa-kits">ELISA Kits</a></li><li><a href="/samplesize">Sample Size</a></li><li><a href="https://www.novusbio.com/new-product-information-page.html">New Products</a></li> </ul> </td> <td> <ul class='links'><li><a href="/about.html">About Us</a></li><li><a href="https://www.bio-techne.com/about/careers">Careers</a></li><li><a href="/guarantee">Novus Guarantee</a></li><li><a href="/about/contact-us.html">Contact Us</a></li><li><a href="/about/novus-team.html">Our Team</a></li> </ul> </td> <td> <ul class='links'><li><a href="/support/technical-support.html">Technical Support</a></li><li><a href="/support/faqs.html">FAQs</a></li><li><a href="/webform/help-finding-antibodies">Help Finding Antibodies</a></li><li><a href="/support/support-by-application.html">Protocols</a></li> </ul> </td> <td id="footer_social_links"> </td> </tr> </table> </div> <div class="clear"></div> <div class="grid_16"> <div id="GTS_CONTAINER" style="float: right;margin-top: 10px;"></div> <div id="footer_officeinfo"> </div> <div class="fp_horzline"></div> <div class="footer_othersites"> <p>Visit our other sites</p> <a href="https://www.bio-techne.com/" target="_blank"><div class="fp_biotechne"></div></a> <a href="https://www.rndsystems.com/"><div class="fp_rnd"></div></a> <a href="https://www.novusbio.com/" target="_blank"><div class="fp_novus"></div></a> <a href="https://www.tocris.com/" target="_blank"><div class="fp_tocris"></div></a> <a href="https://www.bio-techne.com/brands/proteinsimple" target="_blank"><div class="fp_proteinSimple"></div></a> <a href="http://www.biospacific.com/" target="_blank"><div class="fp_biospacific"></div></a>  <a href="http://www.acdbio.com/" target="_blank"><div class="fp_acd"></div></a> <a href="https://www.rndheme.com/" target="_blank"><div class="fp_rndcc"></div></a> </div> <div class="text_center"> <div class="fp_horzline"></div> </div> <div class="copyright">©2024 Novus Biologicals, All Rights Reserved.</div> <div class="footer_legal"> <ul class="links"><li class="menu-47946 first"><a href="/support/customer-service/privacy-policy.html" title="">Privacy Policy</a></li> <li class="menu-47956"><a href="/novus-bio-sitemap.html" title="">Sitemap</a></li> <li class="menu-47951"><a href="/about/contact-us.html" title="">Contact Us</a></li> <li class="menu-47941 last"><a href="/support/customer-service/terms.html" title="">Terms & Conditions</a></li> </ul> </div> <div class="clear"></div> </div> </div> </div> <script type="text/javascript"> <![CDATA[//><!]]> </script> <script type="text/javascript">window.NREUM||(NREUM={});NREUM.info={"beacon":"bam.nr-data.net","licenseKey":"76fb58fb05","applicationID":"788348554,30870807","transactionName":"YFdbZBFZXxdWAhAMVlkdeFMXUV4KGAYBC1xFU01VPFxQEFYSDABcQw==","queueTime":19,"applicationTime":333,"atts":"TBBYEllDTBk=","errorBeacon":"bam.nr-data.net","agent":""}</script></body> </html>

CINXE.COM

ATG5 Antibody - BSA Free (NB110-53818): Novus Biologicals