review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1111/PBI.12417 |
P698 | PubMed publication ID | 26096226 |
P2093 | author name string | Daoxin Xie | |
Chun Yan | |||
P2860 | cites work | Effects of jasmonate-induced defenses on root-knot nematode infection of resistant and susceptible tomato cultivars | Q46678184 |
Jasmonic acid influences mycorrhizal colonization in tomato plants by modifying the expression of genes involved in carbohydrate partitioning. | Q46709607 | ||
Suppression of allene oxide cyclase in hairy roots of Medicago truncatula reduces jasmonate levels and the degree of mycorrhization with Glomus intraradices | Q46769798 | ||
Pathogen-induced systemic activation of a plant defensin gene in Arabidopsis follows a salicylic acid-independent pathway | Q48057199 | ||
Regulation of Jasmonate-Induced Leaf Senescence by Antagonism between bHLH Subgroup IIIe and IIId Factors in Arabidopsis. | Q48174108 | ||
The Jasmonate-ZIM-domain proteins interact with the WD-Repeat/bHLH/MYB complexes to regulate Jasmonate-mediated anthocyanin accumulation and trichome initiation in Arabidopsis thaliana. | Q51868190 | ||
The mitogen-activated protein kinase cascade MKK3-MPK6 is an important part of the jasmonate signal transduction pathway in Arabidopsis. | Q51991356 | ||
The octadecanoid signalling pathway in plants mediates a response to ultraviolet radiation. | Q52199366 | ||
Differential gene expression in response to mechanical wounding and insect feeding in Arabidopsis. | Q52579034 | ||
MYC2 differentially modulates diverse jasmonate-dependent functions in Arabidopsis. | Q52681240 | ||
Interaction between MYC2 and ETHYLENE INSENSITIVE3 modulates antagonism between jasmonate and ethylene signaling in Arabidopsis. | Q52764767 | ||
Arabidopsis DELLA and JAZ proteins bind the WD-repeat/bHLH/MYB complex to modulate gibberellin and jasmonate signaling synergy. | Q52768576 | ||
A downstream mediator in the growth repression limb of the jasmonate pathway | Q57232384 | ||
Arabidopsis MAP kinase 4 regulates salicylic acid- and jasmonic acid/ethylene-dependent responses via EDS1 and PAD4 | Q57651876 | ||
JAZ repressor proteins are targets of the SCFCOI1 complex during jasmonate signalling | Q58619723 | ||
The plant immune system | Q28131801 | ||
Jasmonate-induced defenses: a tale of intelligence, collaborators and rascals | Q28302754 | ||
Contrasting mechanisms of defense against biotrophic and necrotrophic pathogens | Q29616814 | ||
Repeated leaf wounding alters the colonization of Medicago truncatula roots by beneficial and pathogenic microorganisms | Q30318184 | ||
The role of jasmonates in mutualistic symbioses between plants and soil-born microorganisms | Q30319030 | ||
Jasmonates: an update on biosynthesis, signal transduction and action in plant stress response, growth and development | Q30319824 | ||
The jasmonate-insensitive mutant jin1 shows increased resistance to biotrophic as well as necrotrophic pathogens | Q30320458 | ||
Arabidopsis ASA1 is important for jasmonate-mediated regulation of auxin biosynthesis and transport during lateral root formation | Q33347104 | ||
The basic helix-loop-helix transcription factor MYC2 directly represses PLETHORA expression during jasmonate-mediated modulation of the root stem cell niche in Arabidopsis | Q33352224 | ||
Effector MiSSP7 of the mutualistic fungus Laccaria bicolor stabilizes the Populus JAZ6 protein and represses jasmonic acid (JA) responsive genes. | Q33730466 | ||
The role of Arabidopsis Rubisco activase in jasmonate-induced leaf senescence | Q33776551 | ||
Plant defense in the absence of jasmonic acid: the role of cyclopentenones. | Q33948155 | ||
Nitric oxide is involved in methyl jasmonate-induced defense responses and secondary metabolism activities of Taxus cells | Q46437025 | ||
Distinct roles for jasmonate synthesis and action in the systemic wound response of tomato | Q34029515 | ||
Jasmonate-triggered plant immunity | Q34086685 | ||
Endoplasmic reticulum-associated inactivation of the hormone jasmonoyl-L-isoleucine by multiple members of the cytochrome P450 94 family in Arabidopsis | Q34396826 | ||
Volatile signaling in plant-plant interactions: "talking trees" in the genomics era. | Q34493300 | ||
A secretory protein of necrotrophic fungus Sclerotinia sclerotiorum that suppresses host resistance | Q34558897 | ||
(+)-7-iso-Jasmonoyl-L-isoleucine is the endogenous bioactive jasmonate | Q34606303 | ||
The Arabidopsis bHLH transcription factors MYC3 and MYC4 are targets of JAZ repressors and act additively with MYC2 in the activation of jasmonate responses. | Q34627086 | ||
The bHLH subgroup IIId factors negatively regulate jasmonate-mediated plant defense and development. | Q34917068 | ||
Bacterial effector activates jasmonate signaling by directly targeting JAZ transcriptional repressors | Q35034227 | ||
The bacterial effector HopX1 targets JAZ transcriptional repressors to activate jasmonate signaling and promote infection in Arabidopsis | Q35099414 | ||
Jasmonates and related oxylipins in plant responses to pathogenesis and herbivory | Q35182166 | ||
RAR1, a central player in plant immunity, is targeted by Pseudomonas syringae effector AvrB. | Q35539857 | ||
Full establishment of arbuscular mycorrhizal symbiosis in rice occurs independently of enzymatic jasmonate biosynthesis | Q35599197 | ||
Pseudomonas syringae effector protein AvrB perturbs Arabidopsis hormone signaling by activating MAP kinase 4. | Q35894532 | ||
Tomato MAPKs LeMPK1, LeMPK2, and LeMPK3 function in the systemin-mediated defense response against herbivorous insects | Q35901131 | ||
Role of phytohormones in insect-specific plant reactions | Q35942090 | ||
Ancient signals: comparative genomics of plant MAPK and MAPKK gene families. | Q36421220 | ||
A role for jasmonate in pathogen defense of Arabidopsis. | Q36516374 | ||
Separate jasmonate-dependent and salicylate-dependent defense-response pathways in Arabidopsis are essential for resistance to distinct microbial pathogens | Q36760649 | ||
Jasmonate is essential for insect defense in Arabidopsis | Q36773611 | ||
Before gene expression: early events in plant-insect interaction | Q36863218 | ||
betaC1, the pathogenicity factor of TYLCCNV, interacts with AS1 to alter leaf development and suppress selective jasmonic acid responses | Q36898094 | ||
Effects of the virus satellite gene βC1 on host plant defense signaling and volatile emission | Q36912675 | ||
Jasmonate signalling network in Arabidopsis thaliana: crucial regulatory nodes and new physiological scenarios | Q37016296 | ||
Plant-insect dialogs: complex interactions at the plant-insect interface | Q37227665 | ||
The wound hormone jasmonate | Q37442532 | ||
Networking by small-molecule hormones in plant immunity. | Q37450759 | ||
Fatty Acid-derived signals in plant defense | Q37462913 | ||
Mechanisms underlying beneficial plant–fungus interactions in mycorrhizal symbiosis | Q37803113 | ||
Systemin/Jasmonate-mediated systemic defense signaling in tomato | Q37847784 | ||
Hormone crosstalk in plant disease and defense: more than just jasmonate-salicylate antagonism | Q37887785 | ||
Never too many? How legumes control nodule numbers. | Q37912247 | ||
JAZ repressors and the orchestration of phytohormone crosstalk | Q37960211 | ||
Unifying concepts and mechanisms in the specificity of plant-enemy interactions. | Q37998725 | ||
Evolution of jasmonate and salicylate signal crosstalk | Q38002244 | ||
Hormonal modulation of plant immunity | Q38007563 | ||
Exploiting an ancient signalling machinery to enjoy a nitrogen fixing symbiosis | Q38013446 | ||
MAPK cascades in plant disease resistance signaling | Q38105627 | ||
Jasmonates induce both defense responses and communication in monocotyledonous and dicotyledonous plants | Q38266010 | ||
A bHLH-type transcription factor, ABA-INDUCIBLE BHLH-TYPE TRANSCRIPTION FACTOR/JA-ASSOCIATED MYC2-LIKE1, acts as a repressor to negatively regulate jasmonate signaling in arabidopsis | Q38315505 | ||
Antagonistic interaction between abscisic acid and jasmonate-ethylene signaling pathways modulates defense gene expression and disease resistance in Arabidopsis | Q38874619 | ||
Arabidopsis WRKY57 functions as a node of convergence for jasmonic acid- and auxin-mediated signaling in jasmonic acid-induced leaf senescence | Q39106783 | ||
OsbHLH148, a basic helix-loop-helix protein, interacts with OsJAZ proteins in a jasmonate signaling pathway leading to drought tolerance in rice | Q39446404 | ||
The Mediator subunit SFR6/MED16 controls defence gene expression mediated by salicylic acid and jasmonate responsive pathways | Q39580926 | ||
Cucumber mosaic virus and its 2b RNA silencing suppressor modify plant-aphid interactions in tobacco | Q39871453 | ||
Root-knot nematode resistance genes in tomato and their potential for future use. | Q40525866 | ||
Conserved MYC transcription factors play a key role in jasmonate signaling both in tomato and Arabidopsis | Q41023009 | ||
Nematode pathogenesis and resistance in plants | Q41207492 | ||
Virulence factors of geminivirus interact with MYC2 to subvert plant resistance and promote vector performance. | Q41608521 | ||
Host perception of jasmonates promotes infection by Fusarium oxysporum formae speciales that produce isoleucine- and leucine-conjugated jasmonates | Q41890185 | ||
Interference with jasmonic acid-regulated gene expression is a general property of viral suppressors of RNA silencing but only partly explains virus-induced changes in plant-aphid interactions | Q41965863 | ||
Mutation of the Arabidopsis calmodulin-like protein CML37 deregulates the jasmonate pathway and enhances susceptibility to herbivory. | Q42001374 | ||
Reciprocal responses in the interaction between Arabidopsis and the cell-content-feeding chelicerate herbivore spider mite | Q42005717 | ||
Herbivore-associated elicitors: FAC signaling and metabolism | Q42018086 | ||
The COP9 signalosome controls jasmonic acid synthesis and plant responses to herbivory and pathogens | Q42018353 | ||
Tomato protein kinase 1b mediates signaling of plant responses to necrotrophic fungi and insect herbivory. | Q42028742 | ||
Arabidopsis IQD1, a novel calmodulin-binding nuclear protein, stimulates glucosinolate accumulation and plant defense | Q42040716 | ||
A conserved transcript pattern in response to a specialist and a generalist herbivore | Q42043395 | ||
Jasmonic acid negatively regulates resistance to Tobacco mosaic virus in tobacco | Q42266519 | ||
Tomato susceptibility to root-knot nematodes requires an intact jasmonic acid signaling pathway | Q42440170 | ||
Disruption of two defensive signaling pathways by a viral RNA silencing suppressor | Q43045258 | ||
Jasmonate and phytochrome A signaling in Arabidopsis wound and shade responses are integrated through JAZ1 stability | Q43076993 | ||
Jasmonate-dependent and -independent pathways mediate specific effects of solar ultraviolet B radiation on leaf phenolics and antiherbivore defense. | Q43223347 | ||
The mediator complex subunit PFT1 is a key regulator of jasmonate-dependent defense in Arabidopsis | Q43293809 | ||
Resistance to Pseudomonas syringae conferred by an Arabidopsis thaliana coronatine-insensitive (coi1) mutation occurs through two distinct mechanisms | Q43663282 | ||
The protein quality control system manages plant defence compound synthesis | Q43669051 | ||
JAV1 controls jasmonate-regulated plant defense | Q43675146 | ||
Two closely related members of Arabidopsis 13-lipoxygenases (13-LOXs), LOX3 and LOX4, reveal distinct functions in response to plant-parasitic nematode infection. | Q43828170 | ||
Geminiviruses subvert ubiquitination by altering CSN-mediated derubylation of SCF E3 ligase complexes and inhibit jasmonate signaling in Arabidopsis thaliana. | Q44004792 | ||
A highly conserved effector in Fusarium oxysporum is required for full virulence on Arabidopsis | Q44187058 | ||
Constitutive activation of jasmonate signaling in an Arabidopsis mutant correlates with enhanced resistance to Erysiphe cichoracearum, Pseudomonas syringae, and Myzus persicae | Q44220055 | ||
Interactive Effects of Jasmonic Acid, Salicylic Acid, and Gibberellin on Induction of Trichomes in Arabidopsis | Q44613160 | ||
The tomato homolog of CORONATINE-INSENSITIVE1 is required for the maternal control of seed maturation, jasmonate-signaled defense responses, and glandular trichome development | Q44701468 | ||
The role of the jasmonate response in plant susceptibility to diverse pathogens with a range of lifestyles | Q44888236 | ||
JASMONATE-INSENSITIVE1 encodes a MYC transcription factor essential to discriminate between different jasmonate-regulated defense responses in Arabidopsis. | Q44945509 | ||
Jasmonic acid control of GLABRA3 links inducible defense and trichome patterning in Arabidopsis | Q45350348 | ||
The Jasmonate-ZIM domain proteins interact with the R2R3-MYB transcription factors MYB21 and MYB24 to affect Jasmonate-regulated stamen development in Arabidopsis. | Q45366683 | ||
Identification of mitogen-activated protein kinase kinase gene family and MKK-MAPK interaction network in maize | Q45894555 | ||
A rapid wound signal activates the systemic synthesis of bioactive jasmonates in Arabidopsis. | Q45994531 | ||
Fusarium oxysporum hijacks COI1-mediated jasmonate signaling to promote disease development in Arabidopsis. | Q46120432 | ||
Basic helix-loop-helix transcription factors JASMONATE-ASSOCIATED MYC2-LIKE1 (JAM1), JAM2, and JAM3 are negative regulators of jasmonate responses in Arabidopsis | Q46187629 | ||
MYB108 acts together with MYB24 to regulate jasmonate-mediated stamen maturation in Arabidopsis | Q46192873 | ||
The jasmonate pathway is a key player in systemically induced defense against root knot nematodes in rice | Q46223587 | ||
P433 | issue | 9 | |
P921 | main subject | defence against herbivory | Q2004252 |
P304 | page(s) | 1233-1240 | |
P577 | publication date | 2015-06-11 | |
P1433 | published in | Plant Biotechnology Journal | Q15762398 |
P1476 | title | Jasmonate in plant defence: sentinel or double agent? | |
P478 | volume | 13 |
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