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class="mw-body"> <div class="banner-container"> <div id="siteNotice"></div> </div> <div class="pre-content heading-holder"> <div class="page-heading"> <h1 id="firstHeading" class="firstHeading mw-first-heading"><span class="mw-page-title-main">Patch-sequencing</span></h1> <div class="tagline"></div> </div> <ul id="p-associated-pages" class="minerva__tab-container"> <li class="minerva__tab selected"> <a class="minerva__tab-text" href="/wiki/Patch-sequencing" rel="" data-event-name="tabs.subject">Article</a> </li> <li class="minerva__tab "> <a class="minerva__tab-text" href="/wiki/Talk:Patch-sequencing" rel="discussion" data-event-name="tabs.talk">Talk</a> </li> </ul> <nav class="page-actions-menu"> <ul id="p-views" class="page-actions-menu__list"> <li id="language-selector" class="page-actions-menu__list-item"> <a role="button" href="" data-mw="interface" data-event-name="menu.languages" title="Language" class="cdx-button cdx-button--size-large cdx-button--fake-button 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cdx-button--weight-quiet edit-page menu__item--page-actions-edit"> <span class="minerva-icon minerva-icon--edit"></span> <span>Edit</span> </a> </li> </ul> </nav> <!-- version 1.0.2 (change every time you update a partial) --> <div id="mw-content-subtitle"></div> </div> <div id="bodyContent" class="content"> <div id="mw-content-text" class="mw-body-content"><script>function mfTempOpenSection(id){var block=document.getElementById("mf-section-"+id);block.className+=" open-block";block.previousSibling.className+=" open-block";}</script><div class="mw-content-ltr mw-parser-output" lang="en" dir="ltr"><section class="mf-section-0" id="mf-section-0"><p><b>Patch-sequencing (patch-seq)</b> is a modification of <a href="/wiki/Patch_clamp" title="Patch clamp">patch-clamp technique</a> that combines <a href="/wiki/Electrophysiology" title="Electrophysiology">electrophysiological</a>, <a href="/wiki/Transcriptomics_technologies" title="Transcriptomics technologies">transcriptomic</a> and morphological characterization of individual neurons. In this approach, the neuron's cytoplasm is collected and processed for <a href="/wiki/RNA-Seq" title="RNA-Seq">RNAseq</a> after electrophysiological recordings are performed on it. The cell is simultaneously filled with a dye that allows for subsequent morphological reconstruction. </p> <div id="toc" class="toc" role="navigation" aria-labelledby="mw-toc-heading"><input type="checkbox" role="button" id="toctogglecheckbox" class="toctogglecheckbox" style="display:none"><div class="toctitle" lang="en" dir="ltr"><h2 id="mw-toc-heading">Contents</h2><span class="toctogglespan"><label class="toctogglelabel" for="toctogglecheckbox"></label></span></div> <ul> <li class="toclevel-1 tocsection-1"><a href="#Background"><span class="tocnumber">1</span> <span class="toctext">Background</span></a> <ul> <li class="toclevel-2 tocsection-2"><a href="#Neuronal_cell-typing_requires_simultaneous_capturing_of_multiple_data_modalities"><span class="tocnumber">1.1</span> <span class="toctext">Neuronal cell-typing requires simultaneous capturing of multiple data modalities</span></a></li> </ul> </li> <li class="toclevel-1 tocsection-3"><a href="#Preparation_and_model_system_choice"><span class="tocnumber">2</span> <span class="toctext">Preparation and model system choice</span></a></li> <li class="toclevel-1 tocsection-4"><a href="#Patch-sequencing_workflow"><span class="tocnumber">3</span> <span class="toctext">Patch-sequencing workflow</span></a> <ul> <li class="toclevel-2 tocsection-5"><a href="#Forming_the_seal_between_pipette_and_cell"><span class="tocnumber">3.1</span> <span class="toctext">Forming the seal between pipette and cell</span></a></li> <li class="toclevel-2 tocsection-6"><a href="#Electrophysiological_recording"><span class="tocnumber">3.2</span> <span class="toctext">Electrophysiological recording</span></a></li> <li class="toclevel-2 tocsection-7"><a href="#Nucleus_extraction"><span class="tocnumber">3.3</span> <span class="toctext">Nucleus extraction</span></a></li> <li class="toclevel-2 tocsection-8"><a href="#Transcriptomics"><span class="tocnumber">3.4</span> <span class="toctext">Transcriptomics</span></a></li> <li class="toclevel-2 tocsection-9"><a href="#Morphological_reconstruction"><span class="tocnumber">3.5</span> <span class="toctext">Morphological reconstruction</span></a></li> </ul> </li> <li class="toclevel-1 tocsection-10"><a href="#Downstream_data_analysis"><span class="tocnumber">4</span> <span class="toctext">Downstream data analysis</span></a></li> <li class="toclevel-1 tocsection-11"><a href="#Applications"><span class="tocnumber">5</span> <span class="toctext">Applications</span></a></li> <li class="toclevel-1 tocsection-12"><a href="#Limitations"><span class="tocnumber">6</span> <span class="toctext">Limitations</span></a></li> <li class="toclevel-1 tocsection-13"><a href="#Future_directions"><span class="tocnumber">7</span> <span class="toctext">Future directions</span></a> <ul> <li class="toclevel-2 tocsection-14"><a href="#Integrating_other_sequencing_technologies,_proteomics,_and_single_cell_genetic_manipulation"><span class="tocnumber">7.1</span> <span class="toctext">Integrating other sequencing technologies, proteomics, and single cell genetic manipulation</span></a></li> <li class="toclevel-2 tocsection-15"><a href="#Auto-patching"><span class="tocnumber">7.2</span> <span class="toctext">Auto-patching</span></a></li> </ul> </li> <li class="toclevel-1 tocsection-16"><a href="#See_also"><span class="tocnumber">8</span> <span class="toctext">See also</span></a></li> <li class="toclevel-1 tocsection-17"><a href="#References"><span class="tocnumber">9</span> <span class="toctext">References</span></a></li> </ul> </div> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(1)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="Background">Background</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=1" title="Edit section: Background" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-1 collapsible-block" id="mf-section-1"> <div class="mw-heading mw-heading3"><h3 id="Neuronal_cell-typing_requires_simultaneous_capturing_of_multiple_data_modalities">Neuronal cell-typing requires simultaneous capturing of multiple data modalities</h3><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=2" title="Edit section: Neuronal cell-typing requires simultaneous capturing of multiple data modalities" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div> <figure typeof="mw:File/Thumb"><a href="/wiki/File:Patch-Seq_Methodology.png" class="mw-file-description"><noscript><img src="//upload.wikimedia.org/wikipedia/commons/thumb/f/fa/Patch-Seq_Methodology.png/565px-Patch-Seq_Methodology.png" decoding="async" width="565" height="280" class="mw-file-element" data-file-width="3159" data-file-height="1565"></noscript><span class="lazy-image-placeholder" style="width: 565px;height: 280px;" data-src="//upload.wikimedia.org/wikipedia/commons/thumb/f/fa/Patch-Seq_Methodology.png/565px-Patch-Seq_Methodology.png" data-width="565" data-height="280" data-srcset="//upload.wikimedia.org/wikipedia/commons/thumb/f/fa/Patch-Seq_Methodology.png/848px-Patch-Seq_Methodology.png 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/f/fa/Patch-Seq_Methodology.png/1130px-Patch-Seq_Methodology.png 2x" data-class="mw-file-element">&nbsp;</span></a><figcaption>Patch-Seq diagram illustrating the three main data types we obtain from the technique: Electrophysiology Properties, Transcriptome Analysis and Morphological reconstruction.</figcaption></figure><figure typeof="mw:File/Thumb"><a href="/wiki/File:Cortical_microcircuit.png" class="mw-file-description"><noscript><img src="//upload.wikimedia.org/wikipedia/commons/thumb/f/fa/Cortical_microcircuit.png/239px-Cortical_microcircuit.png" decoding="async" width="239" height="331" class="mw-file-element" data-file-width="1188" data-file-height="1642"></noscript><span class="lazy-image-placeholder" style="width: 239px;height: 331px;" data-src="//upload.wikimedia.org/wikipedia/commons/thumb/f/fa/Cortical_microcircuit.png/239px-Cortical_microcircuit.png" data-width="239" data-height="331" data-srcset="//upload.wikimedia.org/wikipedia/commons/thumb/f/fa/Cortical_microcircuit.png/359px-Cortical_microcircuit.png 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/f/fa/Cortical_microcircuit.png/479px-Cortical_microcircuit.png 2x" data-class="mw-file-element">&nbsp;</span></a><figcaption>Cortical Microcircuit </figcaption></figure> <p>While a neuron's electrical properties are important when defining a cell type its <a href="/wiki/Neuromorphology" title="Neuromorphology">morphology</a>, types of <a href="/wiki/Neurotransmitter" title="Neurotransmitter">neurotransmitters</a> released, <a href="/wiki/Neurotransmitter_receptor" title="Neurotransmitter receptor">neurotransmitter receptors</a> expressed at synapses, as well as the neuron's <a href="/wiki/Neuroanatomical_atlas" class="mw-redirect" title="Neuroanatomical atlas">location</a> in the nervous system and its <a href="/wiki/Connectomics" title="Connectomics">local circuit</a> are equally important. Neurons come in a huge diversity of shapes with many differences in <a href="/wiki/Soma_(biology)" title="Soma (biology)">cell bodies (soma)</a>, <a href="/wiki/Dendrite" title="Dendrite">dendrites</a>, and <a href="/wiki/Axon" title="Axon">axons</a>. The position of the dendrites determines which other neurons a cell receives its input from and their shape can have massive impacts on how a neurons responds to this input. Likewise the targets of a neuron's axon determine its outputs. The types of <a href="/wiki/Synapse" title="Synapse">synapses</a> formed between neurons' axons and dendrites are equally important as well.<sup id="cite_ref-1" class="reference"><a href="#cite_note-1"><span class="cite-bracket">[</span>1<span class="cite-bracket">]</span></a></sup> For instance in the cortical microcircuit of the mammalian cortex, portrayed to the right, cells have highly specific projection patterns both within the local circuit as well as across cortical and non-cortical regions. Dendritic geometry influences the electrical behavior of neurons as well, having a massive influence on how <a href="/wiki/Compartmental_neuron_models" title="Compartmental neuron models">dendrites process input</a> in the form of <a href="/wiki/Postsynaptic_potential" title="Postsynaptic potential">postsynaptic potentials</a>. Disordered geometry and projection patterns has been linked to a diverse set of psychiatric and neurological conditions including autism and schizophrenia though the behavioral relevance of these phenotypes is not yet understood.<sup id="cite_ref-2" class="reference"><a href="#cite_note-2"><span class="cite-bracket">[</span>2<span class="cite-bracket">]</span></a></sup> Neuronal cell types appeared to often vary continuously between each other. Previous attempts at neuronal classification by morpho-electric properties have been limited by the use of incompatible methodologies and different cell line selection.<sup id="cite_ref-:0_3-0" class="reference"><a href="#cite_note-:0-3"><span class="cite-bracket">[</span>3<span class="cite-bracket">]</span></a></sup> </p><p>With the advent of <a href="/wiki/Single-cell_RNA-sequencing" class="mw-redirect" title="Single-cell RNA-sequencing">single-cell RNA-sequencing (scRNA-seq)</a> it was hoped that there would exist genes that would be consistently expressed only in neurons with specific classically defined properties. These genes would serve as cell markers. This would provide a better means to delineate neuron types quickly and easily using only mRNA sequencing. However it appeared that scRNA-seq only served to reinforce the fact that overly rigid cell type definitions are not always the best way to characterize neurons.<sup id="cite_ref-4" class="reference"><a href="#cite_note-4"><span class="cite-bracket">[</span>4<span class="cite-bracket">]</span></a></sup> Furthermore gene expression is dynamically regulated, varying over various time scales in response to activity in cell type specific ways to allow for neuronal plasticity.<sup id="cite_ref-5" class="reference"><a href="#cite_note-5"><span class="cite-bracket">[</span>5<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-6" class="reference"><a href="#cite_note-6"><span class="cite-bracket">[</span>6<span class="cite-bracket">]</span></a></sup> Like other tissues, developmental processes also need to be considered.<sup id="cite_ref-7" class="reference"><a href="#cite_note-7"><span class="cite-bracket">[</span>7<span class="cite-bracket">]</span></a></sup> Matching results from scRNA-seq to classically defined neuronal cell types is very challenging for all these reasons<sup id="cite_ref-8" class="reference"><a href="#cite_note-8"><span class="cite-bracket">[</span>8<span class="cite-bracket">]</span></a></sup> and additionally single-cell RNA-seq has its own drawbacks for neuronal classification. While scRNA-seq enables the study of gene expression patterns from individual neurons, it disrupts the tissue for individual cell isolation and thus it is difficult to infer a neuron's original position in the tissue or observe its morphology. Linking the sequencing information to a neuronal subtype, defined previously by electrophysiological and morphological characteristics is a slow and complicated process.<sup id="cite_ref-:1_9-0" class="reference"><a href="#cite_note-:1-9"><span class="cite-bracket">[</span>9<span class="cite-bracket">]</span></a></sup> The simultaneous capture and integration of multiple data types by patch-seq makes it ideal for neuronal classification, uncovering new correlations between gene expression, electrophysiological and morphological properties and neuronal function.<sup id="cite_ref-:6_10-0" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> This makes patch-seq a truly interdisciplinary method, requiring collaboration between specialists in electrophysiology, sequencing, and imaging.<sup id="cite_ref-:6_10-1" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> </p> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(2)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="Preparation_and_model_system_choice">Preparation and model system choice</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=3" title="Edit section: Preparation and model system choice" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-2 collapsible-block" id="mf-section-2"> <p>Patch-seq can be done in any model system including <a href="/wiki/Cell_culture" title="Cell culture">cell culture</a> for neurons. Neurons for culture may be collected from neuronal tissue then disassociated<sup id="cite_ref-11" class="reference"><a href="#cite_note-11"><span class="cite-bracket">[</span>11<span class="cite-bracket">]</span></a></sup> or made from <a href="/wiki/Induced_pluripotent_stem_cell" title="Induced pluripotent stem cell">induced pluripotent stem cells (iPSC)</a>, neurons that have been grown out of human stem cell lines.<sup id="cite_ref-12" class="reference"><a href="#cite_note-12"><span class="cite-bracket">[</span>12<span class="cite-bracket">]</span></a></sup> Cell culture preparation is the easiest to apply patch clamp to and give the experimenter control over what <a href="/wiki/Ligand" title="Ligand">ligands</a> the neuron is exposed to, for instance hormones or neurotransmitters. The benefit of total experimental control however also means the neurons are not subject to the natural environment they would be exposed to during development. As mention previously the position their dendrites and axons extend into as well as the neuron's position with a brain structure is incredibly important for understanding its role within a circuit. Many preparations exist for brain slices from different animal species.<sup id="cite_ref-13" class="reference"><a href="#cite_note-13"><span class="cite-bracket">[</span>13<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-:9_14-0" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> Owing to the presence of cell or debris in the way of the pipette and a target cell the preparation will need to be slightly modified, often slight positive pressure is applied to the pipette to prevent any unintended seals from forming. If understanding how behavior is tied to the dynamics of the neuronal events is of interest it is possible to record <i>in vivo</i> as well. Though adapting patch clamp for <i>in vivo</i> studies can be very difficult for mechanical reasons especially during a behavioral task but has been done.<sup id="cite_ref-:11_15-0" class="reference"><a href="#cite_note-:11-15"><span class="cite-bracket">[</span>15<span class="cite-bracket">]</span></a></sup> Automated <i>in vivo</i> patch clamp methods have been developed.<sup id="cite_ref-16" class="reference"><a href="#cite_note-16"><span class="cite-bracket">[</span>16<span class="cite-bracket">]</span></a></sup> Very little difference exists between preparations for mammalian species though the greater diversity of neuronal sizes in non-human primate and primate cortex may necessitate using different tip diameters and pressures for forming seals without killing target neurons.<sup id="cite_ref-:6_10-2" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> Patch-seq is also applied to non-neuronal studies such as pancreatic or cardiac cells.<sup id="cite_ref-:5_17-0" class="reference"><a href="#cite_note-:5-17"><span class="cite-bracket">[</span>17<span class="cite-bracket">]</span></a></sup> </p> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(3)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="Patch-sequencing_workflow">Patch-sequencing workflow</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=4" title="Edit section: Patch-sequencing workflow" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-3 collapsible-block" id="mf-section-3"> <p>After choosing a model system and preparation type patch-seq experiments have a similar workflow. First a seal between the cell and the pipette is established so that recording and collection may take place. Cells can be filled with a fluorescent label for imaging during recording.<sup id="cite_ref-:2_18-0" class="reference"><a href="#cite_note-:2-18"><span class="cite-bracket">[</span>18<span class="cite-bracket">]</span></a></sup> Following recording negative pressure is applied to capture the cytosol and often the nucleus for sequencing. This process is repeated until cells in the preparation have degraded and are not worth collecting data from. Post-hoc analysis of imaging data allows for morphological reconstruction. Like wise complex post-hoc processing of transcriptomic data is often required as well in order to handle a large number of confounds when collecting cytosolic contents from cells via the pipette.<sup id="cite_ref-:3_19-0" class="reference"><a href="#cite_note-:3-19"><span class="cite-bracket">[</span>19<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-20" class="reference"><a href="#cite_note-20"><span class="cite-bracket">[</span>20<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-21" class="reference"><a href="#cite_note-21"><span class="cite-bracket">[</span>21<span class="cite-bracket">]</span></a></sup> In the initial stages, before forming the seal between the pipette and the cell, the tissue slices are prepared using a <a href="/wiki/Vibratome" class="mw-redirect" title="Vibratome">compresstome vibratome</a>.To obtain thin sections of tissue, these devices are used. This device ensures that the target cells are accessible for patch clamping. The quality and precision of the tissue slicing are important for the success of the patch-seq experiment. The thickness and condition of these tissue slices influence the efficiency of cell targeting and the quality of the patch seal. An appropriate slice preparation is essential to the overall success of the patch-seq workflow.<sup id="cite_ref-22" class="reference"><a href="#cite_note-22"><span class="cite-bracket">[</span>22<span class="cite-bracket">]</span></a></sup> </p> <div class="mw-heading mw-heading3"><h3 id="Forming_the_seal_between_pipette_and_cell">Forming the seal between pipette and cell</h3><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=5" title="Edit section: Forming the seal between pipette and cell" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div> <p>The patch pipette is designed for whole cell recording so its opening diameter is larger than experiments done to examine single ion-channels. For the most part standard patch clamp protocols may be used although there are some small situation dependent modifications to the pipette and the internal solution. An even wider diameter may be used to facilitate the aspiration of the inside of the cell into the pipette but it may need to be adjusted based on the target cell type.<sup id="cite_ref-:7_23-0" class="reference"><a href="#cite_note-:7-23"><span class="cite-bracket">[</span>23<span class="cite-bracket">]</span></a></sup> Negative pressure is applied to enhance the seal which will be better for recording as well as prevent intra-cellular fluid leakage and contamination after or during collection of cell contents for sequencing. During recording <a href="/wiki/Biotin" title="Biotin">biotin</a> can be diffused into the cell via the pipette for imaging and later morphological reconstruction.<sup id="cite_ref-:2_18-1" class="reference"><a href="#cite_note-:2-18"><span class="cite-bracket">[</span>18<span class="cite-bracket">]</span></a></sup> </p> <div class="mw-heading mw-heading3"><h3 id="Electrophysiological_recording">Electrophysiological recording</h3><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=6" title="Edit section: Electrophysiological recording" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div> <p>Once a seal has been established cells are subject to different stimulation regimes using the <a href="/wiki/Voltage_clamp" title="Voltage clamp">voltage clamp</a>, such as ramps, square pulses and noisy current injections. Features of the cell body's membrane are recorded including <a href="/wiki/Resting_membrane_potential" class="mw-redirect" title="Resting membrane potential">resting membrane potential</a> and <a href="/wiki/Threshold_potential" title="Threshold potential">threshold potential</a>. Features observed from generated <a href="/wiki/Action_potential" title="Action potential">action potentials (AP)</a> such as AP width, AP amplitude, after-depolarization and after-hyperpolarization amplitude are also recorded.<sup id="cite_ref-:0_3-1" class="reference"><a href="#cite_note-:0-3"><span class="cite-bracket">[</span>3<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-:1_9-1" class="reference"><a href="#cite_note-:1-9"><span class="cite-bracket">[</span>9<span class="cite-bracket">]</span></a></sup> Whole-cell recordings are performed using patch recoding pipettes filled with a small volume of intracellular solution (to avoid RNA dilution), calcium chelators, RNA carriers and RNase inhibitors.<sup id="cite_ref-:6_10-3" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> The addition of RNase inhibitors, such as EGTA, enhances transcriptome analysis by preserving higher quality RNA from the samples.<sup id="cite_ref-:1_9-2" class="reference"><a href="#cite_note-:1-9"><span class="cite-bracket">[</span>9<span class="cite-bracket">]</span></a></sup> Recording time can take between 1 and 15 minutes without affecting the neuron structure due to swelling, with lower values increasing throughput of the technique.<sup id="cite_ref-:9_14-1" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> The data is recorded and analyzed with commercial or open-source software such as MIES,<sup id="cite_ref-:0_3-2" class="reference"><a href="#cite_note-:0-3"><span class="cite-bracket">[</span>3<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-24" class="reference"><a href="#cite_note-24"><span class="cite-bracket">[</span>24<span class="cite-bracket">]</span></a></sup> PATCHMASTER,<sup id="cite_ref-25" class="reference"><a href="#cite_note-25"><span class="cite-bracket">[</span>25<span class="cite-bracket">]</span></a></sup> pCLAMP,<sup id="cite_ref-26" class="reference"><a href="#cite_note-26"><span class="cite-bracket">[</span>26<span class="cite-bracket">]</span></a></sup> WaveSurfer,<sup id="cite_ref-27" class="reference"><a href="#cite_note-27"><span class="cite-bracket">[</span>27<span class="cite-bracket">]</span></a></sup> among others. </p><p>Neurons are pre-stimulated to verify their resting membrane potential and stabilize their baseline across and within experiments. Cells are then stimulated by ramp and square currents, their electrophysiological properties are recorded and measured. After stimulus the membrane potential must return to the baseline value for recordings to be consistent and robust. Negative pressure is used at the end of the recordings to return the membrane stability. Measurements need to satisfy these conditions to be considered for further analysis.<sup id="cite_ref-:9_14-2" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> During recording cell viability needs to be maintained as being patch-clamped is stressful for the cell. </p><p>It is crucial to have healthy acute or live brain slices for electrophysiological recordings, as the health of the neuron significantly impacts the quality of the data obtained. Healthy brain slices are typically prepared using tools such as the Compresstome vibratome, ensuring optimal conditions for accurate and reliable recordings.<sup id="cite_ref-28" class="reference"><a href="#cite_note-28"><span class="cite-bracket">[</span>28<span class="cite-bracket">]</span></a></sup> </p> <div class="mw-heading mw-heading3"><h3 id="Nucleus_extraction">Nucleus extraction</h3><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=7" title="Edit section: Nucleus extraction" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div> <p>Negative pressure is used to move the nucleus near the pipette tip while moving the electrode near the center of the soma. The model system in question will affect the negative pressure to be applied. In human and non-human primates cell viability is more difficult to ensure. Larger variations in neuronal size compared to rodent models means greater variability in the amount of negative pressure needed to be applied to extract the cytosol and nucleus.<sup id="cite_ref-:6_10-4" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> After retrieval the pipette is slowly retracted while maintaining negative pressure until the membrane surrounding the nucleus breaks off from the cell with the tip forming a membrane seal. The membrane seal traps the contents extracted in the pipette and prevents contamination during removal for sequencing before preparing the pipette for another recording. The construction of the seal can be observed electrically by the increase in resistance (MΩ).<sup id="cite_ref-:9_14-3" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> The retrieval process is slow, often taking around ten minutes, as precision is needed to not burst the cell.<sup id="cite_ref-:9_14-4" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> </p> <div class="mw-heading mw-heading3"><h3 id="Transcriptomics">Transcriptomics</h3><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=8" title="Edit section: Transcriptomics" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div> <p><a href="/wiki/RNA-Seq" title="RNA-Seq">RNA-seq</a> analysis is performed using the nucleus and cytosol extracted from the recorded neurons.<sup id="cite_ref-:1_9-3" class="reference"><a href="#cite_note-:1-9"><span class="cite-bracket">[</span>9<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-:9_14-5" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> RNA is amplified to full length cDNA and libraries are constructed for sequencing. Analyses including the nucleus not only have higher yields of mRNA but have increased data quality.<sup id="cite_ref-:0_3-3" class="reference"><a href="#cite_note-:0-3"><span class="cite-bracket">[</span>3<span class="cite-bracket">]</span></a></sup> </p><p>Samples present a high degree of variability in the RNA content, in some cases including RNA contamination from adjacent cells such as astrocytes or other types of neurons. Quality is assessed by defined marker genes, indicating if the RNA content includes targets of the cell class of interest (<i>on</i> marker) and lacks any contamination markers (<i>off</i> marker).<sup id="cite_ref-:9_14-6" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> Various metrics are used to judge the quality of collected RNA. </p> <ul><li><b>Normalized marker sum (NMS) score:</b> the ratio of <i>on</i> marker genes from the patch-seq cell relative to median expression of the same genes from an analogous data using cellular dissociation methods such as fluorescence-activated cell sorting (<a href="/wiki/Flow_cytometry" title="Flow cytometry">FACS</a>). Cellular dissociation methods have reduced technical issues and acts as a standardization method.<sup id="cite_ref-:3_19-1" class="reference"><a href="#cite_note-:3-19"><span class="cite-bracket">[</span>19<span class="cite-bracket">]</span></a></sup> The score measures the gene expression similarity pattern from the sample to a known cell class. Lower NMS scores indicate a reduced detection of <i>on</i> marker genes, more than an increase of <i>off</i> marker genes.<sup id="cite_ref-:9_14-7" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup></li> <li><b>Contamination score:</b> Indicates the likelihood of RNA contamination from near cells during extraction. Contamination may arise from pipette travel to the soma interacting with other neuronal processes.<sup id="cite_ref-:3_19-2" class="reference"><a href="#cite_note-:3-19"><span class="cite-bracket">[</span>19<span class="cite-bracket">]</span></a></sup> It is calculated as the sum of the NMS score from all broad cell types that does not match the assigned cell class.</li> <li><b>Quality score:</b> Measures the correlation between <i>on</i> and <i>off</i> marker genes from the patch-seq result with the average expression profile of cells analyzed using cellular dissociation methods of the same type.<sup id="cite_ref-:9_14-8" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup></li> <li><b>Nucleus presence markers:</b> Detection of nuclear specific genes (such as <i>Malat1</i> in mammals)<sup id="cite_ref-:3_19-3" class="reference"><a href="#cite_note-:3-19"><span class="cite-bracket">[</span>19<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-29" class="reference"><a href="#cite_note-29"><span class="cite-bracket">[</span>29<span class="cite-bracket">]</span></a></sup> and increased ratio of intronic reads provide evidence for nucleus incorporation in RNA-seq analysis.</li></ul> <div class="mw-heading mw-heading3"><h3 id="Morphological_reconstruction">Morphological reconstruction</h3><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=9" title="Edit section: Morphological reconstruction" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div> <p>Neuron shape and structure, such as dendritic/axonal arborization, axonal geometry, synaptic contacts and soma location, is used for neuronal type classification. In acute slice preparations or <i>in vivo</i> the laminar position is noted as it has important functional consequences as well. The staining by <a href="/wiki/Biotin" title="Biotin">biotin</a> is performed during neuron electrophysiological recording.<sup id="cite_ref-30" class="reference"><a href="#cite_note-30"><span class="cite-bracket">[</span>30<span class="cite-bracket">]</span></a></sup> Alternatively <a href="/wiki/Rhodamine" title="Rhodamine">rhodamine</a> added outside the cell allows for imagine the living cell prior to recording.<sup id="cite_ref-31" class="reference"><a href="#cite_note-31"><span class="cite-bracket">[</span>31<span class="cite-bracket">]</span></a></sup> Imaging is done by two-dimensional tiled images by bright field transmission and fluorescence channels on individual cells and then processed in commercial or open-source software.<sup id="cite_ref-:9_14-9" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> Higher resolution images can be obtained from cultured neurons in comparison to acute slices, yielding higher quality morphological reconstructions.<sup id="cite_ref-:6_10-5" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> </p><p>Post-hoc 3D reconstruction is made by image processing software such as TReMAP,<sup id="cite_ref-32" class="reference"><a href="#cite_note-32"><span class="cite-bracket">[</span>32<span class="cite-bracket">]</span></a></sup> Mozak,<sup id="cite_ref-33" class="reference"><a href="#cite_note-33"><span class="cite-bracket">[</span>33<span class="cite-bracket">]</span></a></sup> or Vaa3D.<sup id="cite_ref-34" class="reference"><a href="#cite_note-34"><span class="cite-bracket">[</span>34<span class="cite-bracket">]</span></a></sup> Quality of the outcome depends on a variety of factors from the electrophysiological recording time to the nucleus extraction procedure. Reconstructed cells are then categorized in four levels of quality depending on their integrity and completeness of the structure. <b>High quality</b> if somas and processes are fully visible and proper digital reconstruction is possible, <b>medium quality</b> if somas and some processes are visible but are nor compatible with 3D reconstruction, <b>insufficient axon</b> where dendrites are filled with biotin but axons are weakly dyed, and <b>failed fills</b> that lack soma staining likely due to the subside of the structure post nuclear extraction.<sup id="cite_ref-:9_14-10" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> </p> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(4)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="Downstream_data_analysis">Downstream data analysis</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=10" title="Edit section: Downstream data analysis" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-4 collapsible-block" id="mf-section-4"> <p>Designing workflow for processing and combining the resulting multimodal data depends on the particular research question patch-seq is being applied to. In cell typing studies the data should be compared with existing scRNA-seq studies with larger sample sizes (in the order of thousands of cells compared to tens or hundreds) and therefore greater statistical power for cell type identification using transcriptomic data alone. Correlation based methods are sufficient for this step.<sup id="cite_ref-:0_3-4" class="reference"><a href="#cite_note-:0-3"><span class="cite-bracket">[</span>3<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-35" class="reference"><a href="#cite_note-35"><span class="cite-bracket">[</span>35<span class="cite-bracket">]</span></a></sup> Dimensionality reduction methods such as <a href="/wiki/T-distributed_stochastic_neighbor_embedding" title="T-distributed stochastic neighbor embedding">T-distributed stochastic neighbor embedding</a> or <a href="/wiki/Uniform_Manifold_Approximation_and_Projection" class="mw-redirect" title="Uniform Manifold Approximation and Projection">uniform manifold approximation and projection</a> can then be used for visualization of the collected data's position on a reference atlas of higher quality scRNA-seq data.<sup id="cite_ref-:4_36-0" class="reference"><a href="#cite_note-:4-36"><span class="cite-bracket">[</span>36<span class="cite-bracket">]</span></a></sup> <a href="/wiki/Machine_learning" title="Machine learning">Machine learning</a> can be applied in order to relate the gene expression data to the morphological and electrophysiological data. Methods for doing so include <a href="/wiki/Autoencoder" title="Autoencoder">autoencoders</a>,<sup id="cite_ref-37" class="reference"><a href="#cite_note-37"><span class="cite-bracket">[</span>37<span class="cite-bracket">]</span></a></sup> <a href="/wiki/Neural_network" title="Neural network">bottleneck networks</a>,<sup id="cite_ref-38" class="reference"><a href="#cite_note-38"><span class="cite-bracket">[</span>38<span class="cite-bracket">]</span></a></sup> or other rank reduction methods.<sup id="cite_ref-:4_36-1" class="reference"><a href="#cite_note-:4-36"><span class="cite-bracket">[</span>36<span class="cite-bracket">]</span></a></sup> Including morphological data has proven to be challenging as it is a <a href="/wiki/Computer_vision" title="Computer vision">computer vision</a> task, a notoriously complicated problem in <a href="/wiki/Machine_learning" title="Machine learning">machine learning</a>. It is difficult to represent imaging data from the morphological reconstructions as a <a href="/wiki/Feature_vector" class="mw-redirect" title="Feature vector">feature vector</a> for including in the analysis.<sup id="cite_ref-:6_10-6" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> </p> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(5)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="Applications">Applications</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=11" title="Edit section: Applications" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-5 collapsible-block" id="mf-section-5"> <p>Patch-seq integrative dataset allows for a comprehensive characterization of cell types, particularly in neurons. Neuroscientists have applied this technique to a variety of experiments and protocols to discover new cell subtypes based on correlations between transcriptomic data and neuronal morpho-electric properties. Applying machine learning to patch-seq data it is then possible to study transcriptomic data and link it to their respective morpho-electric properties.<sup id="cite_ref-:6_10-7" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> Having a confirmed ground truth for robust cell type classification allows researchers to look at the function of specific neuron types and subtypes in complex processes such as behavior, language and the underlying processes in neurological and psychiatric diseases. Comparison of proteomics with transcriptomics has shown that transcriptional data does not necessarily translate into the same protein expression<sup id="cite_ref-39" class="reference"><a href="#cite_note-39"><span class="cite-bracket">[</span>39<span class="cite-bracket">]</span></a></sup> and likewise having the ability to look at the ground truth of a neuron's phenotype from classical classification methods combined with transcriptomic data is important for neuroscience. Patch-seq experiments have been found which support transcriptomic results but others have found cases where morphology of similar transcriptomically defined cell types in different brain regions did not match up.<sup id="cite_ref-:6_10-8" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> The technique is particularly well suited for neuroscience but in general any tissue where it is of interest to simultaneous know electrophysiology, morphology, and transcriptomics would find use for patch-seq. For instance patch-seq has also been applied to non-neuronal tissues such as pancreatic islets for studying diabetes.<sup id="cite_ref-:5_17-1" class="reference"><a href="#cite_note-:5-17"><span class="cite-bracket">[</span>17<span class="cite-bracket">]</span></a></sup> </p> <figure typeof="mw:File/Thumb"><a href="/wiki/File:Patch-Seq_data_in_machine_learning.png" class="mw-file-description"><noscript><img src="//upload.wikimedia.org/wikipedia/commons/thumb/2/29/Patch-Seq_data_in_machine_learning.png/440px-Patch-Seq_data_in_machine_learning.png" decoding="async" width="440" height="335" class="mw-file-element" data-file-width="4210" data-file-height="3204"></noscript><span class="lazy-image-placeholder" style="width: 440px;height: 335px;" data-src="//upload.wikimedia.org/wikipedia/commons/thumb/2/29/Patch-Seq_data_in_machine_learning.png/440px-Patch-Seq_data_in_machine_learning.png" data-width="440" data-height="335" data-srcset="//upload.wikimedia.org/wikipedia/commons/thumb/2/29/Patch-Seq_data_in_machine_learning.png/660px-Patch-Seq_data_in_machine_learning.png 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/2/29/Patch-Seq_data_in_machine_learning.png/880px-Patch-Seq_data_in_machine_learning.png 2x" data-class="mw-file-element">&nbsp;</span></a><figcaption>Patch-Seq datasets integrated in Machine learning algorithms to predict neuron morphology and electrophysiological properties from transcriptome data obtained from single-cell sequencing.</figcaption></figure> <ul><li><b>Targeted neuronal populations studies:</b> Patch-seq excels compared to other methodologies in its capacity to measure and extract genetic information from targeted neurons without having to disrupt the sample. This allows for precise trace-back of the transcriptomic data to the neuron properties, such as its connectivity, the location in the slice, morphology. Correlation studies between these data types help identify differential expression genes across neuronal types and discover genetic markers for fast classification.<sup id="cite_ref-:6_10-9" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup></li> <li><b>Compilation and integration of multimodal cell type databases:</b> Patch-seq has been used to integrate neuron functional characteristics to the large transcriptional databases from single cell RNA-seq studies. Patch-seq can provide electrophysiological and morphological data, with morphology being less common due to the difficulty in achieving high quality standards.<sup id="cite_ref-:9_14-11" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> Integration of the multimodal data is necessary as correct labeling of cell type is unobtainable from just one data type. Previous research has shown that transcriptomically similar neurons can have different morpho-electrical characteristics.<sup id="cite_ref-40" class="reference"><a href="#cite_note-40"><span class="cite-bracket">[</span>40<span class="cite-bracket">]</span></a></sup></li> <li><b>Molecular basis of morphological and functional diversity:</b> Research into the molecular mechanisms that define the morphological and function diversity of neurons is ongoing. Patch-seq allows the identification of differential expressed genes between known distinct cell types. Small changes in gene expression can cause cells to display a different response to stimuli, underlining the importance of correlating this data for proper classification.<sup id="cite_ref-41" class="reference"><a href="#cite_note-41"><span class="cite-bracket">[</span>41<span class="cite-bracket">]</span></a></sup></li></ul> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(6)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="Limitations">Limitations</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=12" title="Edit section: Limitations" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-6 collapsible-block" id="mf-section-6"> <p>The most serious limitation to patch-seq is a limitation shared by patch clamp techniques generally, that being the requirement of high fidelity and dexterous manual labor. Patch clamping has been described as an art form and requires practice to perfect the technique. So not only is it labor-intensive but also takes years of training to prefect the technique.<sup id="cite_ref-42" class="reference"><a href="#cite_note-42"><span class="cite-bracket">[</span>42<span class="cite-bracket">]</span></a></sup><sup id="cite_ref-:8_43-0" class="reference"><a href="#cite_note-:8-43"><span class="cite-bracket">[</span>43<span class="cite-bracket">]</span></a></sup> To date the largest patch-seq study was done in acute cortical slices of mouse <a href="/wiki/Primary_visual_cortex" class="mw-redirect" title="Primary visual cortex">primary visual cortex</a>. Just over 4000 neurons were patched and sequenced from and the effort required a huge amount of manual labor.<sup id="cite_ref-:9_14-12" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> Most other data sets were collected from tens or hundreds of cells. Significantly less than cells collected for sequencing by dissociating the tissue.<sup id="cite_ref-:6_10-10" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> Nevertheless no other electrophysiological recording's technique can match patch-seq's temporal resolution or ability to characterize specific ionic currents nor offer the capacity to produce a voltage clamp. For these reasons automating the technique is an area of active investigation by many laboratories around the world for applications using patch clamping including patch-seq. </p><p>Morphological reconstruction via digital imaging is another limitation of the technique with pass rates often lower than 50%.<sup id="cite_ref-:9_14-13" class="reference"><a href="#cite_note-:9-14"><span class="cite-bracket">[</span>14<span class="cite-bracket">]</span></a></sup> The proper integration of the massive number of images with high quantities of noise, and the structural disruption caused by nucleus extraction, makes it a computational challenge in neuroscience. New automatic tracing methods are being developed, but quality remains low.<sup id="cite_ref-44" class="reference"><a href="#cite_note-44"><span class="cite-bracket">[</span>44<span class="cite-bracket">]</span></a></sup> </p> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(7)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="Future_directions">Future directions</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=13" title="Edit section: Future directions" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-7 collapsible-block" id="mf-section-7"> <div class="mw-heading mw-heading3"><h3 id="Integrating_other_sequencing_technologies,_proteomics,_and_single_cell_genetic_manipulation"><span id="Integrating_other_sequencing_technologies.2C_proteomics.2C_and_single_cell_genetic_manipulation"></span>Integrating other sequencing technologies, proteomics, and single cell genetic manipulation</h3><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=14" title="Edit section: Integrating other sequencing technologies, proteomics, and single cell genetic manipulation" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div> <p>So far the only sequencing technology used has been mRNA sequencing. Including other modalities as well would increase the number of "<a href="/wiki/Omics" title="Omics">omics</a>" included in the data generated. For instance a technique for separating the mRNA from the DNA could allow for studying modifications on the DNA.<sup id="cite_ref-:7_23-1" class="reference"><a href="#cite_note-:7-23"><span class="cite-bracket">[</span>23<span class="cite-bracket">]</span></a></sup> Chromatin accessibility could be judged from <a href="/wiki/DNA_methylation" title="DNA methylation">DNA methylation</a> and using <a href="/wiki/Methylated_DNA_immunoprecipitation" title="Methylated DNA immunoprecipitation">methylated DNA immunoprecipitation</a> and <a href="/wiki/Histone_acetylation_and_deacetylation" title="Histone acetylation and deacetylation">histone acetylation and deacetylation</a> from <a href="/wiki/ChIP_sequencing" title="ChIP sequencing">ChIP sequencing</a>. This would enable study of <a href="/wiki/Epigenetics" title="Epigenetics">epigenetics</a> in patch-seq experiments. Likewise separating out proteins would be useful for judging protein abundances allowing for integration with <a href="/wiki/Proteomics" title="Proteomics">proteomics</a>. <a href="/wiki/CRISPR" title="CRISPR">CRISPR</a> could be included in the pipette and injected during recording to examine the effects of mutation at the single cell level.<sup id="cite_ref-:6_10-11" class="reference"><a href="#cite_note-:6-10"><span class="cite-bracket">[</span>10<span class="cite-bracket">]</span></a></sup> </p> <div class="mw-heading mw-heading3"><h3 id="Auto-patching">Auto-patching</h3><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=15" title="Edit section: Auto-patching" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div> <p>The biggest bottle neck to the throughput of patch-seq is the labor required for patch clamping. Slowly <a href="/wiki/Automated_patch_clamp" title="Automated patch clamp">automated patch clamp</a> is beginning to become the norm but as of yet has not reached wide adoption. This is despite some auto-pathing rigs having a higher successfully attempted seal rate and data collection rate than humans. Automated patch clamping can either be done blind without imaging information instead relying on pressure sensors to provide input for algorithms guiding robotic rigs to form seals and record. Alternatively image guided algorithms exist as well allow for targeting of fluorescently labeled cells. Some systems are better suited to particular model systems and preparations.<sup id="cite_ref-:8_43-1" class="reference"><a href="#cite_note-:8-43"><span class="cite-bracket">[</span>43<span class="cite-bracket">]</span></a></sup> <a rel="nofollow" class="external autonumber" href="http://syntheticneurobiology.org/PDFs/19.07.suk.pdf">[1]</a> </p> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(8)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="See_also">See also</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=16" title="Edit section: See also" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-8 collapsible-block" id="mf-section-8"> <ul><li><a href="/wiki/Patch_clamp" title="Patch clamp">Patch clamp</a></li> <li><a href="/wiki/List_of_single_cell_omics_methods" title="List of single cell omics methods">Single-cell omics</a></li> <li><a href="/wiki/Single_cell_sequencing" class="mw-redirect" title="Single cell sequencing">Single-cell sequencing</a></li> <li><a href="/wiki/RNA-Seq" title="RNA-Seq">RNA-Seq</a></li> <li><a href="/wiki/MAP-Seq" title="MAP-Seq">MAP-Seq</a></li> <li><a href="/wiki/Neuromorphology" title="Neuromorphology">Neuromorphology</a></li> <li><a href="/wiki/Neuronal_tracing" title="Neuronal tracing">Neuronal tracing</a></li> <li><a href="/wiki/Electrophysiology" title="Electrophysiology">Electrophysiology</a></li> <li><a href="/wiki/Automated_patch_clamp" title="Automated patch clamp">Automated patch clamp</a></li></ul> </section><div class="mw-heading mw-heading2 section-heading" onclick="mfTempOpenSection(9)"><span class="indicator mf-icon mf-icon-expand mf-icon--small"></span><h2 id="References">References</h2><span class="mw-editsection"> <a role="button" href="/w/index.php?title=Patch-sequencing&amp;action=edit&amp;section=17" title="Edit section: References" class="cdx-button cdx-button--size-large cdx-button--fake-button cdx-button--fake-button--enabled cdx-button--icon-only cdx-button--weight-quiet "> <span class="minerva-icon minerva-icon--edit"></span> <span>edit</span> </a> </span> </div><section class="mf-section-9 collapsible-block" id="mf-section-9"> <style data-mw-deduplicate="TemplateStyles:r1239543626">.mw-parser-output .reflist{margin-bottom:0.5em;list-style-type:decimal}@media screen{.mw-parser-output .reflist{font-size:90%}}.mw-parser-output .reflist .references{font-size:100%;margin-bottom:0;list-style-type:inherit}.mw-parser-output .reflist-columns-2{column-width:30em}.mw-parser-output .reflist-columns-3{column-width:25em}.mw-parser-output .reflist-columns{margin-top:0.3em}.mw-parser-output .reflist-columns ol{margin-top:0}.mw-parser-output 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a{background:url("//upload.wikimedia.org/wikipedia/commons/6/65/Lock-green.svg")right 0.1em center/9px no-repeat}.mw-parser-output .id-lock-limited.id-lock-limited a,.mw-parser-output .id-lock-registration.id-lock-registration a{background:url("//upload.wikimedia.org/wikipedia/commons/d/d6/Lock-gray-alt-2.svg")right 0.1em center/9px no-repeat}.mw-parser-output .id-lock-subscription.id-lock-subscription a{background:url("//upload.wikimedia.org/wikipedia/commons/a/aa/Lock-red-alt-2.svg")right 0.1em center/9px no-repeat}.mw-parser-output .cs1-ws-icon a{background:url("//upload.wikimedia.org/wikipedia/commons/4/4c/Wikisource-logo.svg")right 0.1em center/12px no-repeat}body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .id-lock-free a,body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .id-lock-limited a,body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .id-lock-registration a,body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .id-lock-subscription a,body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .cs1-ws-icon a{background-size:contain;padding:0 1em 0 0}.mw-parser-output .cs1-code{color:inherit;background:inherit;border:none;padding:inherit}.mw-parser-output .cs1-hidden-error{display:none;color:var(--color-error,#d33)}.mw-parser-output .cs1-visible-error{color:var(--color-error,#d33)}.mw-parser-output .cs1-maint{display:none;color:#085;margin-left:0.3em}.mw-parser-output .cs1-kern-left{padding-left:0.2em}.mw-parser-output .cs1-kern-right{padding-right:0.2em}.mw-parser-output .citation .mw-selflink{font-weight:inherit}@media screen{.mw-parser-output .cs1-format{font-size:95%}html.skin-theme-clientpref-night .mw-parser-output .cs1-maint{color:#18911f}}@media screen and (prefers-color-scheme:dark){html.skin-theme-clientpref-os .mw-parser-output .cs1-maint{color:#18911f}}</style><cite id="CITEREFLarsenSjöström2015" class="citation journal cs1">Larsen, Rylan S; Sjöström, P Jesper (2015-12-01). <a 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