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{"work":{"id":18251449,"created_at":"2015-11-12T22:10:46.887-08:00","from_world_paper_id":144338563,"updated_at":"2024-11-17T19:30:00.379-08:00","_data":{"grobid_abstract":"Jasmonic acid (JA) is an important regulator of plant development and stress responses. Several enzymes involved in the biosynthesis of JA from a-linolenic acid have been characterized. The final biosynthesis steps are the b-oxidation of 12-oxo-phytoenoic acid. We analyzed JA biosynthesis in the Arabidopsis mutants pex6, affected in peroxisome biogenesis, and aim1, disrupted in fatty acid b-oxidation. Upon wounding, these mutants exhibit reduced JA levels compared to wild type. pex6 accumulated the precursor OPDA. Feeding experiments with deuterated OPDA substantiate this accumulation pattern, suggesting the mutants are impaired in the b-oxidation of JA biosynthesis at different steps. Decreased expression of JA-responsive genes, such as VSP1, VSP2, AtJRG21 and LOX2, following wounding in the mutants compared to the wild type reflects the reduced JA levels of the mutants. By use of these additional mutants in combination with feeding experiments, the necessity of functional peroxisomes for JA-biosynthesis is confirmed. Furthermore an essential function of one of the two multifunctional proteins of fatty acid b-oxidation (AIM1) for wound-induced JA formation is demonstrated for the first time. These data confirm that JA biosynthesis occurs via peroxisomal fatty acid b-oxidation machinery.","publication_date":"2007,,","publication_name":"Phytochemistry","grobid_abstract_attachment_id":"39956074"},"document_type":"paper","pre_hit_view_count_baseline":null,"quality":"high","language":"en","title":"Jasmonate biosynthesis in Arabidopsis thaliana requires peroxisomal β-oxidation enzymes – Additional proof by properties of pex6 and aim1","broadcastable":true,"draft":null,"has_indexable_attachment":true,"indexable":true}}["work"]; window.loswp.workCoauthors = [38239374]; window.loswp.locale = "en"; window.loswp.countryCode = "SG"; window.loswp.cwvAbTestBucket = ""; window.loswp.designVariant = "ds_vanilla"; window.loswp.fullPageMobileSutdModalVariant = "control"; window.loswp.useOptimizedScribd4genScript = false; window.loswp.appleClientId = 'edu.academia.applesignon';</script><script defer="" src="https://accounts.google.com/gsi/client"></script><div class="ds-loswp-container"><div 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Ji</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant physiology, 2014</p><p class="ds-related-work--abstract ds2-5-body-sm">Peroxisomes are highly dynamic and multifunctional organelles essential to development. Plant peroxisomes accommodate a multitude of metabolic reactions, many of which are related to the β-oxidation of fatty acids or fatty acid-related metabolites. Recently, several dozens of novel peroxisomal proteins have been identified from Arabidopsis (Arabidopsis thaliana) through in silico and experimental proteomic analyses followed by in vivo protein targeting validations. To determine the functions of these proteins, we interrogated their transfer DNA insertion mutants with a series of physiological, cytological, and biochemical assays to reveal peroxisomal deficiencies. Sugar dependence and 2,4-dichlorophenoxybutyric acid and 12-oxo-phytodienoic acid response assays uncovered statistically significant phenotypes in β-oxidation-related processes in mutants for 20 of 27 genes tested. Additional investigations uncovered a subset of these mutants with abnormal seed germination, accumulation o...</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Systematic phenotypic screen of Arabidopsis peroxisomal mutants identifies proteins involved in β-oxidation","attachmentId":90877614,"attachmentType":"pdf","work_url":"https://www.academia.edu/86419389/Systematic_phenotypic_screen_of_Arabidopsis_peroxisomal_mutants_identifies_proteins_involved_in_%CE%B2_oxidation","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/86419389/Systematic_phenotypic_screen_of_Arabidopsis_peroxisomal_mutants_identifies_proteins_involved_in_%CE%B2_oxidation"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="4" data-entity-id="58940979" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/58940979/Role_of_beta_oxidation_in_jasmonate_biosynthesis_and_systemic_wound_signaling_in_tomato">Role of beta-oxidation in jasmonate biosynthesis and systemic wound signaling in tomato</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="52294145" href="https://independent.academia.edu/HoweGregg">Gregg Howe</a></div><p class="ds-related-work--metadata ds2-5-body-xs">The Plant cell, 2005</p><p class="ds-related-work--abstract ds2-5-body-sm">Jasmonic acid (JA) is a lipid-derived signal that regulates plant defense responses to biotic stress. Here, we report the characterization of a JA-deficient mutant of tomato (Lycopersicon esculentum) that lacks local and systemic expression of defensive proteinase inhibitors (PIs) in response to wounding. Map-based cloning studies demonstrated that this phenotype results from loss of function of an acyl-CoA oxidase (ACX1A) that catalyzes the first step in the peroxisomal beta-oxidation stage of JA biosynthesis. Recombinant ACX1A exhibited a preference for C12 and C14 straight-chain acyl-CoAs and also was active in the metabolism of C18 cyclopentanoid-CoA precursors of JA. The overall growth, development, and reproduction of acx1 plants were similar to wild-type plants. However, the mutant was compromised in its defense against tobacco hornworm (Manduca sexta) attack. Grafting experiments showed that loss of ACX1A function disrupts the production of the transmissible signal for wound...</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Role of beta-oxidation in jasmonate biosynthesis and systemic wound signaling in tomato","attachmentId":73107688,"attachmentType":"pdf","work_url":"https://www.academia.edu/58940979/Role_of_beta_oxidation_in_jasmonate_biosynthesis_and_systemic_wound_signaling_in_tomato","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/58940979/Role_of_beta_oxidation_in_jasmonate_biosynthesis_and_systemic_wound_signaling_in_tomato"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="5" data-entity-id="58940950" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/58940950/Role_of_Peroxisomal_%CE%B2_Oxidation_in_the_Production_of_Plant_Signaling_Compounds">Role of Peroxisomal β-Oxidation in the Production of Plant Signaling Compounds</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="52294145" href="https://independent.academia.edu/HoweGregg">Gregg Howe</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant Signaling & Behavior, 2007</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Role of Peroxisomal β-Oxidation in the Production of Plant Signaling Compounds","attachmentId":73107682,"attachmentType":"pdf","work_url":"https://www.academia.edu/58940950/Role_of_Peroxisomal_%CE%B2_Oxidation_in_the_Production_of_Plant_Signaling_Compounds","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/58940950/Role_of_Peroxisomal_%CE%B2_Oxidation_in_the_Production_of_Plant_Signaling_Compounds"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="6" data-entity-id="18242531" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/18242531/Role_of_Oxidation_in_Jasmonate_Biosynthesis_and_Systemic_Wound_Signaling_in_Tomato">Role of Oxidation in Jasmonate Biosynthesis and Systemic Wound Signaling in Tomato</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="38226156" href="https://independent.academia.edu/GreggHowe">Gregg Howe</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant Cell, 2005</p><p class="ds-related-work--abstract ds2-5-body-sm">Jasmonic acid (JA) is a lipid-derived signal that regulates plant defense responses to biotic stress. Here, we report the characterization of a JA-deficient mutant of tomato (Lycopersicon esculentum) that lacks local and systemic expression of defensive proteinase inhibitors (PIs) in response to wounding. Map-based cloning studies demonstrated that this phenotype results from loss of function of an acyl-CoA oxidase (ACX1A)</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Role of Oxidation in Jasmonate Biosynthesis and Systemic Wound Signaling in Tomato","attachmentId":39951339,"attachmentType":"pdf","work_url":"https://www.academia.edu/18242531/Role_of_Oxidation_in_Jasmonate_Biosynthesis_and_Systemic_Wound_Signaling_in_Tomato","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/18242531/Role_of_Oxidation_in_Jasmonate_Biosynthesis_and_Systemic_Wound_Signaling_in_Tomato"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="7" data-entity-id="7887638" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/7887638/Dual_positional_specificity_and_expression_of_non_traditional_lipoxygenase_induced_by_wounding_and_methyl_jasmonate_in_maize_seedlings">Dual positional specificity and expression of non-traditional lipoxygenase induced by wounding and methyl jasmonate in maize seedlings</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="14751503" href="https://independent.academia.edu/GaneshAgrawal">Ganesh Agrawal</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant Molecular Biology, 2003</p><p class="ds-related-work--abstract ds2-5-body-sm">Lipoxygenases (LOXs) catalyze the formation of fatty acid hydroperoxides involved in responses to stresses. This study examines the expression of a non-traditional dual positional specific maize LOX in response to wounding or methyl jasmonate (MeJA). Full-length maize LOX cDNA was expressed in Escherichia coli, and recombinant LOX was purified and characterized enzymatically. RP-HPLC and GC-MS analysis showed that the purified LOX converts α-linolenic acid into 13-hydroperoxylinolenic acid and 9-hydroperoxylinolenic acid in a 6:4 ratio. LOX mRNA accumulated rapidly and transiently in response to wounding reaching a peak of expression about 3 h after wounding. This increase followed an initial increase in endogenous jasmonic acid (JA) 1 h after wounding (JA burst). However, the expression of LOX induced by MeJA lasted longer than the expression induced by wounding, and the MeJA-induced expression seemed to be biphasic pattern composed of early and late phases. The expression of LOX in the presence of inhibitors of JA biosynthesis was not completely inhibited, but delayed in wound response and the expression period was shortened in MeJA response. These results suggest that wound-responsive JA burst may trigger the early phase of LOX expression which facilitates biosynthesis of endogenous JA through its 13-LOX activity, and subsequently leads to the activation of the late phase LOX expression in MeJA-treated maize seedlings. Implications of dual positional specificity of maize LOX in the observed expression kinetics are discussed.</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Dual positional specificity and expression of non-traditional lipoxygenase induced by wounding and methyl jasmonate in maize seedlings","attachmentId":48301337,"attachmentType":"pdf","work_url":"https://www.academia.edu/7887638/Dual_positional_specificity_and_expression_of_non_traditional_lipoxygenase_induced_by_wounding_and_methyl_jasmonate_in_maize_seedlings","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/7887638/Dual_positional_specificity_and_expression_of_non_traditional_lipoxygenase_induced_by_wounding_and_methyl_jasmonate_in_maize_seedlings"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="8" data-entity-id="3396233" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/3396233/Gene_Specific_Involvement_of_Oxidation_in_Wound_Activated_Responses_in_Arabidopsis">Gene-Specific Involvement of Oxidation in Wound-Activated Responses in Arabidopsis</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="3953622" href="https://unifr.academia.edu/AntonyBuchala">Antony Buchala</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant Physiology, 2004</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Gene-Specific Involvement of Oxidation in Wound-Activated Responses in Arabidopsis","attachmentId":31185309,"attachmentType":"pdf","work_url":"https://www.academia.edu/3396233/Gene_Specific_Involvement_of_Oxidation_in_Wound_Activated_Responses_in_Arabidopsis","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/3396233/Gene_Specific_Involvement_of_Oxidation_in_Wound_Activated_Responses_in_Arabidopsis"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="9" data-entity-id="82076876" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/82076876/Gene_Specific_Involvement_of_%CE%B2_Oxidation_in_Wound_Activated_Responses_in_Arabidopsis">Gene-Specific Involvement of β-Oxidation in Wound-Activated Responses in Arabidopsis</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="57099926" href="https://independent.academia.edu/JeanpierreM%C3%A9traux">Jean-pierre Métraux</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant Physiology, 2004</p><p class="ds-related-work--abstract ds2-5-body-sm">The coordinated induced expression of β-oxidation genes is essential to provide the energy supply for germination and postgerminative development. However, very little is known about other functions of β-oxidation in nonreserve organs. We have identified a gene-specific pattern of induced β-oxidation gene expression in wounded leaves of Arabidopsis. Mechanical damage triggered the local and systemic induction of only ACX1 among acyl-coenzyme A oxidase (ACX) genes, and KAT2/PED1 among 3-ketoacyl-coenzyme A thiolase (KAT) genes in Arabidopsis. In turn, wounding induced KAT5/PKT2 only systemically. Although most of the β-oxidation genes were activated by wound-related factors such as dehydration and abscisic acid, jasmonic acid (JA) induced only ACX1 and KAT5. Reduced expression of ACX1 or KAT2 genes, in transgenic plants expressing their corresponding mRNAs in antisense orientation, correlated with defective wound-activated synthesis of JA and with reduced expression of JA-responsive ...</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Gene-Specific Involvement of β-Oxidation in Wound-Activated Responses in Arabidopsis","attachmentId":87897983,"attachmentType":"pdf","work_url":"https://www.academia.edu/82076876/Gene_Specific_Involvement_of_%CE%B2_Oxidation_in_Wound_Activated_Responses_in_Arabidopsis","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/82076876/Gene_Specific_Involvement_of_%CE%B2_Oxidation_in_Wound_Activated_Responses_in_Arabidopsis"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div></div></div><div class="ds-sticky-ctas--wrapper js-loswp-sticky-ctas hidden"><div class="ds-sticky-ctas--grid-container"><div class="ds-sticky-ctas--container"><button class="ds2-5-button js-swp-download-button" data-signup-modal="{"location":"continue-reading-button--sticky-ctas","attachmentId":39956074,"attachmentType":"pdf","workUrl":null}">See full PDF</button><button class="ds2-5-button ds2-5-button--secondary js-swp-download-button" data-signup-modal="{"location":"download-pdf-button--sticky-ctas","attachmentId":39956074,"attachmentType":"pdf","workUrl":null}"><span class="material-symbols-outlined" style="font-size: 20px" translate="no">download</span>Download PDF</button></div></div></div><div class="ds-below-fold--grid-container"><div class="ds-work--container js-loswp-embedded-document"><div class="attachment_preview" data-attachment="Attachment_39956074" style="display: none"><div class="js-scribd-document-container"><div class="scribd--document-loading js-scribd-document-loader" style="display: block;"><img alt="Loading..." src="//a.academia-assets.com/images/loaders/paper-load.gif" /><p>Loading Preview</p></div></div><div style="text-align: center;"><div class="scribd--no-preview-alert js-preview-unavailable"><p>Sorry, preview is currently unavailable. 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Ji</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant signaling & behavior, 2014</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"A simple assay to identify peroxisomal proteins involved in 12-oxo-phytodienoic acid metabolism","attachmentId":90877609,"attachmentType":"pdf","work_url":"https://www.academia.edu/86419388/A_simple_assay_to_identify_peroxisomal_proteins_involved_in_12_oxo_phytodienoic_acid_metabolism","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-related-work-grid-card-view-pdf" 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data-author-id="34753447" href="https://independent.academia.edu/TakeshiObayashi">Takeshi Obayashi</a><span>, </span><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="34652174" href="https://independent.academia.edu/SuzukiHideyuki">Hideyuki Suzuki</a></div><p class="ds-related-work--metadata ds2-5-body-xs">PLANT PHYSIOLOGY, 2005</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"12-Oxo-Phytodienoic Acid Triggers Expression of a Distinct Set of Genes and Plays a Role in Wound-Induced Gene Expression in Arabidopsis","attachmentId":43142191,"attachmentType":"pdf","work_url":"https://www.academia.edu/15502061/12_Oxo_Phytodienoic_Acid_Triggers_Expression_of_a_Distinct_Set_of_Genes_and_Plays_a_Role_in_Wound_Induced_Gene_Expression_in_Arabidopsis","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-related-work-grid-card-view-pdf" href="https://www.academia.edu/15502061/12_Oxo_Phytodienoic_Acid_Triggers_Expression_of_a_Distinct_Set_of_Genes_and_Plays_a_Role_in_Wound_Induced_Gene_Expression_in_Arabidopsis"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-related-work-sidebar-card" data-collection-position="3" data-entity-id="101655653" data-sort-order="default"><a class="ds-related-work--title js-related-work-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/101655653/Differential_Impact_of_Lipoxygenase_2_and_Jasmonates_on_Natural_and_Stress_Induced_Senescence_in_Arabidopsis">Differential Impact of Lipoxygenase 2 and Jasmonates on Natural and Stress-Induced Senescence in Arabidopsis</a><div class="ds-related-work--metadata"><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="35934664" href="https://independent.academia.edu/martinseltmann">martin seltmann</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant Physiology, 2010</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Differential Impact of Lipoxygenase 2 and Jasmonates on Natural and Stress-Induced Senescence in Arabidopsis","attachmentId":102136732,"attachmentType":"pdf","work_url":"https://www.academia.edu/101655653/Differential_Impact_of_Lipoxygenase_2_and_Jasmonates_on_Natural_and_Stress_Induced_Senescence_in_Arabidopsis","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-related-work-grid-card-view-pdf" href="https://www.academia.edu/101655653/Differential_Impact_of_Lipoxygenase_2_and_Jasmonates_on_Natural_and_Stress_Induced_Senescence_in_Arabidopsis"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-related-work-sidebar-card" data-collection-position="4" data-entity-id="33274552" data-sort-order="default"><a class="ds-related-work--title js-related-work-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/33274552/Lipoxygenase_gene_expression_is_modulated_in_plants_by_water_deficit_wounding_and_methyl_jasmonate">Lipoxygenase gene expression is modulated in plants by water deficit, wounding, and methyl jasmonate</a><div class="ds-related-work--metadata"><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="64977449" href="https://independent.academia.edu/JohnMullet">John Mullet</a></div><p class="ds-related-work--metadata ds2-5-body-xs">MGG Molecular & General Genetics, 1991</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Lipoxygenase gene expression is modulated in plants by water deficit, wounding, and methyl 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data-sort-order="default"><a class="ds-related-work--title js-related-work-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/85521710/Peroxisomal_fatty_acid_%CE%B2_oxidation_negatively_impacts_plant_survival_under_salt_stress">Peroxisomal fatty acid β-oxidation negatively impacts plant survival under salt stress</a><div class="ds-related-work--metadata"><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="32290329" href="https://independent.academia.edu/JilianFan">Jilian Fan</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant Signaling &amp; Behavior, 2019</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Peroxisomal fatty acid β-oxidation negatively impacts plant survival under salt 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href="https://www.academia.edu/13356902/Jasmonic_acid_biosynthesis_signal_transduction_gene_expression">Jasmonic acid: biosynthesis, signal transduction, gene expression</a><div class="ds-related-work--metadata"><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="32591503" href="https://independent.academia.edu/JaneWard3">Jane Ward</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Lipid - Fett, 1998</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Jasmonic acid: biosynthesis, signal transduction, gene expression","attachmentId":45436066,"attachmentType":"pdf","work_url":"https://www.academia.edu/13356902/Jasmonic_acid_biosynthesis_signal_transduction_gene_expression","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span 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Fatty Acid Desaturase Required for the Biosynthesis of Jasmonic Acid and the Production of a Systemic Wound Signal for Defense Gene Expression</a><div class="ds-related-work--metadata"><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="38226156" href="https://independent.academia.edu/GreggHowe">Gregg Howe</a><span>, </span><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="38357688" href="https://independent.academia.edu/BauerPetra">Petra Bauer</a></div><p class="ds-related-work--metadata ds2-5-body-xs">THE PLANT CELL ONLINE, 2003</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"The Tomato Suppressor of prosystemin-mediated responses2 Gene Encodes a Fatty Acid Desaturase Required for the Biosynthesis of Jasmonic Acid and the Production of a Systemic Wound Signal 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data-sort-order="default"><a class="ds-related-work--title js-related-work-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/120937843/Jasmonic_Acid_Dependent_and_Independent_Signaling_Pathways_Control_Wound_Induced_Gene_Activation_in_Arabidopsis_thaliana">Jasmonic Acid-Dependent and -Independent Signaling Pathways Control Wound-Induced Gene Activation in Arabidopsis thaliana</a><div class="ds-related-work--metadata"><a class="js-related-work-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="214680294" href="https://independent.academia.edu/joseleon530">jose leon</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Plant Physiology, 1997</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Jasmonic Acid-Dependent and -Independent Signaling Pathways Control Wound-Induced Gene Activation in 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