|1.||Miesch, Laurence: 4 articles (09/2015 - 02/2012)|
|2.||Widemann, Emilie: 4 articles (09/2015 - 02/2012)|
|3.||Heitz, Thierry: 4 articles (09/2015 - 02/2012)|
|4.||Pinot, Franck: 4 articles (09/2015 - 02/2012)|
|5.||Baldwin, Ian T: 4 articles (03/2015 - 11/2006)|
|6.||Aubert, Yann: 3 articles (09/2015 - 11/2013)|
|7.||Miesch, Michel: 3 articles (09/2015 - 02/2012)|
|8.||Lugan, Raphaël: 3 articles (09/2015 - 02/2012)|
|9.||Matsuura, Hideyuki: 3 articles (08/2013 - 06/2011)|
|10.||Howe, Gregg A: 3 articles (05/2011 - 03/2008)|
|1.||Wounds and Injuries (Trauma)
07/01/2015 - "We detected ABA and JA-Ile from single cells of water- and wound-stressed leaves, whereas they were almost undetectable in non-stressed single cells. "
08/01/2013 - "In rice (Oryza sativa), JA and JA-Ile rapidly increased after mechanical damage, and this increase was further amplified when the wounds were treated with oral secretions from generalist herbivore larvae, lawn armyworms (Spodoptera mauritia), revealing for the first time active perception mechanisms of herbivore-associated elicitor(s) in rice. "
08/01/2013 - "Response of rice to insect elicitors and the role of OsJAR1 in wound and herbivory-induced JA-Ile accumulation."
11/01/2012 - "When [¹³C₆]Ile and [²H₆]JA were applied separately into the wounds on two different leaves, JA-[¹³C₆]Ile and [²H₆]JA-Ile were detected in the stem exudates but [²H₆]JA-[¹³C₆]Ile was not, indicating that JA was conjugated with Ile in the wounded leaf and that the resulting JA-Ile was then transported into systemic tissues. "
09/01/2009 - "These results are consistent with a model in which a rapidly transmitted wound signal triggers the systemic synthesis of JA, which, upon conversion to JA-Ile, activates the expression of early response genes by the SCF(COI1)/JAZ pathway."
09/01/2015 - "Leaf wounding or fungal infection in Arabidopsis resulted in accumulation of JA-Phe, 12-hydroxyl (12OH-JA-Phe) and 12-carboxyl (12COOH-JA-Phe) derivatives, with patterns differing from those previously described for Jasmonoyl-Isoleucine. "
06/17/2011 - "In contrast, only the expression of OsJAR1 was associated with the accumulation of JA-Ile after blast infection. "
11/01/2015 - "Infection with both pathogens triggers higher jasmonic acid, jasmonoyl-isoleucine accumulation, and jasmonic acid-dependent gene expression in Atdpl1-1 mutants. "
03/01/2015 - "Transgenic N. attenuata lines silenced in JA production or JA conjugation to isoleucine (JA-Ile), but not in JA perception, were highly susceptible to infection by F. brachygibbosum Utah 4, indicating that products derived from the JA-Ile biosynthetic pathway, but not their perception, is associated with increased Fusarium resistance. "
10/15/2014 - "Upon infection the accumulation of JA and JA-isoleucine (JA-Ile) was higher than in wild-type plants and increased the induction of LOX3 and the JA-responsive PDF1.2 gene. "
|3.||Dehydration (Water Stress)
10/01/2015 - "Results showed that the early JA accumulation leading to JA-Ile build up was necessary for an ABA increase in roots under two different water stress conditions. "
10/01/2015 - "Signal transduction between water stress-induced JA-Ile accumulation and COI1 is necessary for a full induction of the ABA biosynthesis pathway and subsequent hormone accumulation in roots of Arabidopsis plants. "
10/01/2015 - "Jasmonoyl isoleucine accumulation is needed for abscisic acid build-up in roots of Arabidopsis under water stress conditions."
|1.||jasmonic acid (jasmonate)
|7.||Salicylic Acid (2 Hydroxybenzoic Acid)
|8.||Proteins (Proteins, Gene)