| scholarly article | Q13442814 |
| P2093 | author name string | Susanne Berger | |
| Martin J Mueller | |||
| Markus Krischke | |||
| Nadja E Stingl | |||
| Jens K Lautenschlaeger | |||
| Martin A Seltmann | |||
| P2860 | cites work | Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana | Q27860555 |
| The Arabidopsis male-sterile mutant, opr3, lacks the 12-oxophytodienoic acid reductase required for jasmonate synthesis | Q28145405 | ||
| BIOSYNTHESIS AND ACTION OF JASMONATES IN PLANTS | Q28249530 | ||
| The DEFECTIVE IN ANTHER DEHISCIENCE gene encodes a novel phospholipase A1 catalyzing the initial step of jasmonic acid biosynthesis, which synchronizes pollen maturation, anther dehiscence, and flower opening in Arabidopsis | Q28361274 | ||
| Senescence is induced in individually darkened Arabidopsis leaves, but inhibited in whole darkened plants | Q28363848 | ||
| Control of jasmonate biosynthesis and senescence by miR319 targets | Q28473712 | ||
| COPPER ENZYMES IN ISOLATED CHLOROPLASTS. POLYPHENOLOXIDASE IN BETA VULGARIS | Q29615362 | ||
| Jasmonates: an update on biosynthesis, signal transduction and action in plant stress response, growth and development | Q30319824 | ||
| Expression of the beta-oxidation gene 3-ketoacyl-CoA thiolase 2 (KAT2) is required for the timely onset of natural and dark-induced leaf senescence in Arabidopsis | Q30482216 | ||
| A novel class of oxylipins, sn1-O-(12-oxophytodienoyl)-sn2-O-(hexadecatrienoyl)-monogalactosyl Diglyceride, from Arabidopsis thaliana | Q30661608 | ||
| Differential expression of senescence-associated mRNAs during leaf senescence induced by different senescence-inducing factors in Arabidopsis | Q32061725 | ||
| A chloroplast lipoxygenase is required for wound-induced jasmonic acid accumulation in Arabidopsis | Q33917915 | ||
| GENEVESTIGATOR. Arabidopsis microarray database and analysis toolbox | Q33981484 | ||
| Senescence-promoting effect of arabidopside A. | Q33997939 | ||
| Construct design for efficient, effective and high-throughput gene silencing in plants. | Q34092911 | ||
| Inhibition of leaf senescence by autoregulated production of cytokinin | Q34374253 | ||
| KAT1 is not essential for stomatal opening | Q34505334 | ||
| Wounding stimulates the accumulation of glycerolipids containing oxophytodienoic acid and dinor-oxophytodienoic acid in Arabidopsis leaves | Q34547937 | ||
| Oxo-phytodienoic acid-containing galactolipids in Arabidopsis: jasmonate signaling dependence | Q34704626 | ||
| The lipoxygenase pathway. | Q34833694 | ||
| Plant oxylipins: role of jasmonic acid during programmed cell death, defence and leaf senescence | Q34996206 | ||
| Coordinated plant defense responses in Arabidopsis revealed by microarray analysis. | Q35336355 | ||
| Leaf senescence | Q36687365 | ||
| Jasmonate signalling network in Arabidopsis thaliana: crucial regulatory nodes and new physiological scenarios | Q37016296 | ||
| Velocity estimates for signal propagation leading to systemic jasmonic acid accumulation in wounded Arabidopsis. | Q37454128 | ||
| The arabidopsis DELAYED DEHISCENCE1 gene encodes an enzyme in the jasmonic acid synthesis pathway | Q41748309 | ||
| Cooperation and functional diversification of two closely related galactolipase genes for jasmonate biosynthesis. | Q42524629 | ||
| The ABC transporter PXA1 and peroxisomal beta-oxidation are vital for metabolism in mature leaves of Arabidopsis during extended darkness | Q43268943 | ||
| Enzymatic and non-enzymatic lipid peroxidation in leaf development. | Q43814347 | ||
| Evidence supporting a role of jasmonic acid in Arabidopsis leaf senescence | Q43916174 | ||
| The Arabidopsis male-sterile mutant dde2-2 is defective in the ALLENE OXIDE SYNTHASE gene encoding one of the key enzymes of the jasmonic acid biosynthesis pathway | Q44215211 | ||
| A rapid wound signal activates the systemic synthesis of bioactive jasmonates in Arabidopsis. | Q45994531 | ||
| Natural variation in responsiveness of Arabidopsis thaliana to methyl jasmonate is developmentally regulated | Q46411773 | ||
| Strong, constitutive expression of the Arabidopsis ACT2/ACT8 actin subclass in vegetative tissues. | Q47829050 | ||
| A versatile binary vector system with a T-DNA organisational structure conducive to efficient integration of cloned DNA into the plant genome | Q50788144 | ||
| Transcription analysis of arabidopsis membrane transporters and hormone pathways during developmental and induced leaf senescence. | Q52021157 | ||
| Large-scale identification of leaf senescence-associated genes. | Q52097801 | ||
| Identification of a promoter region responsible for the senescence-specific expression of SAG12. | Q52172884 | ||
| Arabidopsis Mutants Selected for Resistance to the Phytotoxin Coronatine Are Male Sterile, Insensitive to Methyl Jasmonate, and Resistant to a Bacterial Pathogen. | Q54205776 | ||
| Molecular aspects of leaf senescence | Q73934863 | ||
| The Critical Requirement for Linolenic Acid Is Pollen Development, Not Photosynthesis, in an Arabidopsis Mutant | Q74806231 | ||
| Wounding and chemicals induce expression of the Arabidopsis thaliana gene Thi2.1, encoding a fungal defense thionin, via the octadecanoid pathway | Q77586094 | ||
| A gain-of-function allele of TPC1 activates oxylipin biogenesis after leaf wounding in Arabidopsis | Q79663064 | ||
| Isolation and Identification of a Senescence-promoting Substance from Wormwood (Artemisia absinthium L.). | Q83254705 | ||
| Turnover of fatty acids during natural senescence of Arabidopsis, Brachypodium, and switchgrass and in Arabidopsis beta-oxidation mutants | Q84135872 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1940-1950 | |
| P577 | publication date | 2010-02-26 | |
| P1433 | published in | Plant Physiology | Q3906288 |
| P1476 | title | Differential impact of lipoxygenase 2 and jasmonates on natural and stress-induced senescence in Arabidopsis | |
| P478 | volume | 152 |
| Q61800130 | A Genotypic Comparison Reveals That the Improvement in Nitrogen Remobilization Efficiency in Oilseed Rape Leaves Is Related to Specific Patterns of Senescence-Associated Protease Activities and Phytohormones |
| Q30317980 | ALLENE OXIDE CYCLASE (AOC) gene family members of Arabidopsis thaliana: tissue- and organ-specific promoter activities and in vivo heteromerization |
| Q41680759 | Activation of secondary cell wall biosynthesis by miR319-targeted TCP4 transcription factor |
| Q41841654 | Adaptation to altitude affects the senescence response to chilling in the perennial plant Arabis alpina |
| Q33739265 | Arabidopsis lox3 lox4 double mutants are male sterile and defective in global proliferative arrest |
| Q39167412 | Arabidopsis zinc finger proteins AtC3H49/AtTZF3 and AtC3H20/AtTZF2 are involved in ABA and JA responses |
| Q88733464 | Cell division and turgor mediate enhanced plant growth in Arabidopsis plants treated with the bacterial signalling molecule lumichrome |
| Q100634578 | CmLOX10 positively regulates drought tolerance through jasmonic acid -mediated stomatal closure in oriental melon (Cucumis melo var. makuwa Makino) |
| Q50743443 | Comprehensive dissection of spatiotemporal metabolic shifts in primary, secondary, and lipid metabolism during developmental senescence in Arabidopsis. |
| Q28732352 | Cytochromes p450 |
| Q35742037 | Differential tissue accumulation of 2,3,7,8-Tetrachlorinated dibenzo-p-dioxin in Arabidopsis thaliana affects plant chronology, lipid metabolism and seed yield |
| Q44600364 | Direct infusion mass spectrometry of oxylipin-containing Arabidopsis membrane lipids reveals varied patterns in different stress responses. |
| Q42013424 | Disruption of OPR7 and OPR8 reveals the versatile functions of jasmonic acid in maize development and defense. |
| Q39153162 | Elevated levels of CYP94 family gene expression alleviate the jasmonate response and enhance salt tolerance in rice |
| Q51074202 | Enzymatic and Non-Enzymatic Mechanisms Contribute to Lipid Oxidation During Seed Aging. |
| Q57446086 | First clues on a jasmonic acid role in grapevine resistance against the biotrophic fungus Plasmopara viticola |
| Q33354749 | Four 13-lipoxygenases contribute to rapid jasmonate synthesis in wounded Arabidopsis thaliana leaves: a role for lipoxygenase 6 in responses to long-distance wound signals |
| Q26748429 | Functional Analysis of Jasmonates in Rice through Mutant Approaches |
| Q41834359 | Genome-wide analysis of lipoxygenase gene family in Arabidopsis and rice |
| Q42369664 | Global transcriptome analysis of the maize (Zea mays L.) inbred line 08LF during leaf senescence initiated by pollination-prevention. |
| Q28551501 | Heterologous Expression and Biochemical Characterization of Two Lipoxygenases in Oriental Melon, Cucumis melo var. makuwa Makino |
| Q38090532 | Hormonal regulation of leaf senescence through integration of developmental and stress signals |
| Q34989035 | Identification of genes involved in wild crucifer Rorippa indica resistance response on mustard aphid Lipaphis erysimi challenge |
| Q96685777 | Induced tolerance to abiotic and biotic stresses of broccoli and Arabidopsis after treatment with elicitor molecules |
| Q44061566 | Jasmonate-dependent and COI1-independent defense responses against Sclerotinia sclerotiorum in Arabidopsis thaliana: auxin is part of COI1-independent defense signaling |
| Q41820822 | Jasmonates during senescence: signals or products of metabolism? |
| Q26744535 | Jasmonates: Multifunctional Roles in Stress Tolerance |
| Q30317845 | Jasmonates: biosynthesis, perception, signal transduction and action in plant stress response, growth and development. An update to the 2007 review in Annals of Botany |
| Q39531462 | Jasmonic acid protects etiolated seedlings of Arabidopsis thaliana against herbivorous arthropods |
| Q42509970 | Lipid profiling of the Arabidopsis hypersensitive response reveals specific lipid peroxidation and fragmentation processes: biogenesis of pimelic and azelaic acid |
| Q38618572 | Lipid signalling in plant responses to abiotic stress |
| Q39031836 | Lipoxygenase6-dependent oxylipin synthesis in roots is required for abiotic and biotic stress resistance of Arabidopsis |
| Q39194254 | Loss of plastoglobule kinases ABC1K1 and ABC1K3 causes conditional degreening, modified prenyl-lipids, and recruitment of the jasmonic acid pathway. |
| Q41158686 | Loss of the Atypical Kinases ABC1K7 and ABC1K8 Changes the Lipid Composition of the Chloroplast Membrane. |
| Q64103016 | Micromanagement of Developmental and Stress-Induced Senescence: The Emerging Role of MicroRNAs |
| Q41033153 | Molecular characterization of lipoxygenase genes on chromosome 4BS in Chinese bread wheat (Triticum aestivum L.). |
| Q38176444 | N-Acylethanolamines: lipid metabolites with functions in plant growth and development. |
| Q42013580 | NaJAZh regulates a subset of defense responses against herbivores and spontaneous leaf necrosis in Nicotiana attenuata plants. |
| Q35124473 | New perspective of jasmonate function in leaf senescence |
| Q52626760 | Oxo-phytodienoic acid (OPDA) is formed on fatty acids esterified to galactolipids after tissue disruption in Arabidopsis thaliana. |
| Q37061406 | Paired Hierarchical Organization of 13-Lipoxygenases in Arabidopsis |
| Q42907069 | Partitioning of new carbon as ¹¹C in Nicotiana tabacum reveals insight into methyl jasmonate induced changes in metabolism |
| Q48231108 | Plant organ senescence - regulation by manifold pathways |
| Q27320814 | Protein S-Acyltransferase 14: A Specific Role for Palmitoylation in Leaf Senescence in Arabidopsis |
| Q35581078 | Proteomic and biochemical analyses show a functional network of proteins involved in antioxidant defense of the Arabidopsis anp2anp3 double mutant. |
| Q38055380 | Signal transduction in leaf senescence |
| Q64254467 | Substrate channeling in oxylipin biosynthesis through a protein complex in the plastid envelope of Arabidopsis thaliana |
| Q28821360 | Suppressing Farnesyl Diphosphate Synthase Alters Chloroplast Development and Triggers Sterol-Dependent Induction of Jasmonate- and Fe-Related Responses |
| Q36079826 | The Molecular Mechanism of Ethylene-Mediated Root Hair Development Induced by Phosphate Starvation |
| Q38287980 | The roles of ethylene and transcription factors in the regulation of onset of leaf senescence |
| Q33820213 | The salt-responsive transcriptome of chickpea roots and nodules via deepSuperSAGE. |
| Q39013793 | The submergence tolerance gene SUB1A delays leaf senescence under prolonged darkness through hormonal regulation in rice |
| Q38358082 | To grow old: regulatory role of ethylene and jasmonic acid in senescence |
| Q48128136 | Transcriptional Mechanism of Jasmonate Receptor COI1-Mediated Delay of Flowering Time in Arabidopsis |
| Q39430439 | Transcriptome profiling of developmental leaf senescence in sorghum (Sorghum bicolor). |
| Q39430755 | Transcriptomics and physiological analyses reveal co-ordinated alteration of metabolic pathways in Jatropha curcas drought tolerance |
| Q42587770 | Traumatin- and dinortraumatin-containing galactolipids in Arabidopsis: their formation in tissue-disrupted leaves as counterparts of green leaf volatiles |
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