scholarly article | Q13442814 |
P50 | author | Jonathan Gershenzon | Q1506580 |
P2093 | author name string | Feng Chen | |
Nan Zhao | |||
Tobias G Köllner | |||
Jörg Degenhardt | |||
Claudia Lenk | |||
Irmgard Seidl-Adams | |||
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An herbivore elicitor activates the gene for indole emission in maize | Q24683568 | ||
Structural Basis for Substrate Recognition in the Salicylic Acid Carboxyl Methyltransferase Family | Q27641773 | ||
Structural, Biochemical, and Phylogenetic Analyses Suggest That Indole-3-Acetic Acid Methyltransferase Is an Evolutionarily Ancient Member of the SABATH Family | Q27649449 | ||
UCSF Chimera--a visualization system for exploratory research and analysis | Q27860666 | ||
Transcriptional activation of Igl, the gene for indole formation in Zea mays: a structure-activity study with elicitor-active N-acyl glutamines from insects | Q28168421 | ||
Within-plant signaling by volatiles leads to induction and priming of an indirect plant defense in nature | Q30479175 | ||
S-Adenosyl-L-methionine:salicylic acid carboxyl methyltransferase, an enzyme involved in floral scent production and plant defense, represents a new class of plant methyltransferases | Q33178546 | ||
The products of a single maize sesquiterpene synthase form a volatile defense signal that attracts natural enemies of maize herbivores | Q33231825 | ||
Genomics of hybrid poplar (Populus trichocarpax deltoides) interacting with forest tent caterpillars (Malacosoma disstria): normalized and full-length cDNA libraries, expressed sequence tags, and a cDNA microarray for the study of [...] | Q33240458 | ||
Floral benzenoid carboxyl methyltransferases: from in vitro to in planta function | Q33829846 | ||
Demonstration and characterization of (E)-nerolidol synthase from maize: a herbivore-inducible terpene synthase participating in (3E)-4,8-dimethyl-1,3,7-nonatriene biosynthesis | Q33901412 | ||
The maize gene terpene synthase 1 encodes a sesquiterpene synthase catalyzing the formation of (E)-beta-farnesene, (E)-nerolidol, and (E,E)-farnesol after herbivore damage | Q34164576 | ||
The variability of sesquiterpenes emitted from two Zea mays cultivars is controlled by allelic variation of two terpene synthase genes encoding stereoselective multiple product enzymes | Q34312400 | ||
Plant immunity to insect herbivores | Q34585236 | ||
Exploitation of herbivore-induced plant odors by host-seeking parasitic wasps | Q34683516 | ||
Protonation of a neutral (S)-beta-bisabolene intermediate is involved in (S)-beta-macrocarpene formation by the maize sesquiterpene synthases TPS6 and TPS11. | Q34784782 | ||
Monoterpene and sesquiterpene synthases and the origin of terpene skeletal diversity in plants | Q35005789 | ||
Attracting friends to feast on foes: engineering terpene emission to make crop plants more attractive to herbivore enemies | Q35121958 | ||
A maize sesquiterpene cyclase gene induced by insect herbivory and volicitin: characterization of wild-type and mutant alleles | Q35856956 | ||
Overexpression of salicylic acid carboxyl methyltransferase reduces salicylic acid-mediated pathogen resistance in Arabidopsis thaliana. | Q38506621 | ||
Priming by airborne signals boosts direct and indirect resistance in maize | Q40263603 | ||
Priming defense genes and metabolites in hybrid poplar by the green leaf volatile cis-3-hexenyl acetate. | Q42028191 | ||
Molecular and genomic basis of volatile-mediated indirect defense against insects in rice. | Q42029528 | ||
A maize (E)-beta-caryophyllene synthase implicated in indirect defense responses against herbivores is not expressed in most American maize varieties. | Q42030244 | ||
The role of indole and other shikimic acid derived maize volatiles in the attraction of two parasitic wasps | Q42035364 | ||
Compatible and incompatible Xanthomonas infections differentially affect herbivore-induced volatile emission by pepper plants | Q42036464 | ||
Evaluating the induced-odour emission of a Bt maize and its attractiveness to parasitic wasps | Q42039116 | ||
Direct and indirect defences induced by piercing-sucking and chewing herbivores in Medicago truncatula | Q42040544 | ||
High genetic variability of herbivore-induced volatile emission within a broad range of maize inbred lines. | Q42043953 | ||
Genomic background predicts the fate of duplicated genes: evidence from the yeast genome | Q42426767 | ||
Biosynthesis and emission of insect-induced methyl salicylate and methyl benzoate from rice | Q43143907 | ||
Emission of herbivore-induced volatiles in absence of a herbivore--response of Zea mays to green leaf volatiles and terpenoids | Q43815047 | ||
Salicylic acid carboxyl methyltransferase induced in hairy root cultures of Atropa belladonna after treatment with exogeneously added salicylic acid | Q44159226 | ||
Novel S-adenosyl-L-methionine:salicylic acid carboxyl methyltransferase, an enzyme responsible for biosynthesis of methyl salicylate and methyl benzoate, is not involved in floral scent production in snapdragon flowers | Q44166315 | ||
Differential volatile emissions and salicylic acid levels from tobacco plants in response to different strains of Pseudomonas syringae | Q44415157 | ||
An Arabidopsis thaliana gene for methylsalicylate biosynthesis, identified by a biochemical genomics approach, has a role in defense | Q44655464 | ||
Qualitative and quantitative variation among volatile profiles induced by Tetranychus urticae feeding on plants from various families | Q44837488 | ||
The sesquiterpene hydrocarbons of maize (Zea mays) form five groups with distinct developmental and organ-specific distributions | Q44997348 | ||
Biochemical and structural characterization of benzenoid carboxyl methyltransferases involved in floral scent production in Stephanotis floribunda and Nicotiana suaveolens | Q45018130 | ||
Further field evaluation of synthetic herbivore-induced plant volatiles as attractants for beneficial insects | Q46494449 | ||
An indole-3-acetic acid carboxyl methyltransferase regulates Arabidopsis leaf development. | Q46709430 | ||
The biosynthesis and regulation of biosynthesis of Concord grape fruit esters, including 'foxy' methylanthranilate | Q46785634 | ||
Positive selection for single amino acid change promotes substrate discrimination of a plant volatile-producing enzyme | Q48080742 | ||
Two Arabidopsis genes (IPMS1 and IPMS2) encode isopropylmalate synthase, the branchpoint step in the biosynthesis of leucine. | Q51716081 | ||
Differential attractiveness of induced odors emitted by eight maize varieties for the parasitoid cotesia marginiventris: is quality or quantity important? | Q52596757 | ||
Priming of indirect defences. | Q52669351 | ||
Molecular cloning and biochemical characterization of indole-3-acetic acid methyltransferase from poplar. | Q54441441 | ||
Herbivore-induced volatiles: the emission of acyclic homoterpenes from leaves of Phaseolus lunatus and Zea mays can be triggered by a beta-glucosidase and jasmonic acid | Q72716853 | ||
Evaluation of liquid chromatographic analysis of nutritionally important amino acids in food and physiological samples | Q72854809 | ||
OsBISAMT1, a gene encoding S-adenosyl-L-methionine: salicylic acid carboxyl methyltransferase, is differentially expressed in rice defense responses | Q79931534 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | herbivore | Q59099 |
methyl anthranilate | Q420894 | ||
herbivory | Q45874067 | ||
P1104 | number of pages | 13 | |
P304 | page(s) | 1795-1807 | |
P577 | publication date | 2010-06-02 | |
P1433 | published in | Plant Physiology | Q3906288 |
P1476 | title | Herbivore-induced SABATH methyltransferases of maize that methylate anthranilic acid using s-adenosyl-L-methionine | |
P478 | volume | 153 |
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Q28534380 | Early transcriptome analyses of Z-3-Hexenol-treated zea mays revealed distinct transcriptional networks and anti-herbivore defense potential of green leaf volatiles |
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Q92003747 | Genome-Wide Comprehensive Analysis of the SABATH Gene Family in Arabidopsis and Rice |
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Q39815461 | Methyl Anthranilate as a Repellent for Western Corn Rootworm Larvae (Coleoptera: Chrysomelidae). |
Q91996040 | Microbial production of methyl anthranilate, a grape flavor compound |
Q33624841 | Overexpression of S-Adenosyl-l-Methionine Synthetase 2 from Sugar Beet M14 Increased Arabidopsis Tolerance to Salt and Oxidative Stress |
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Q36747685 | Plant elicitor peptides are conserved signals regulating direct and indirect antiherbivore defense |
Q38476924 | Priming of protein expression in the defence response of Zantedeschia aethiopica to Pectobacterium carotovorum. |
Q46249627 | The phenotypic and molecular assessment of the non-conserved Arabidopsis MICRORNA163/S-ADENOSYL-METHYLTRANSFERASE regulatory module during biotic stress. |
Q91781656 | Transcriptome and Metabolome Reprogramming in Tomato Plants by Trichoderma harzianum strain T22 Primes and Enhances Defense Responses Against Aphids |
Q57203245 | Two enzymes responsible for the formation of herbivore-induced volatiles of maize, the methyltransferase AAMT1 and the terpene synthase TPS23, are regulated by a similar signal transduction pathway |
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