2001
DOI: 10.1104/pp.126.2.890
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The TASTY Locus on Chromosome 1 of Arabidopsis Affects Feeding of the Insect Herbivore Trichoplusia ni  

Abstract: The generalist insect herbivore Trichoplusia ni(cabbage looper) readily consumes Arabidopsis and can complete its entire life cycle on this plant. Natural isolates (ecotypes) of Arabidopsis are not equally susceptible to T. ni feeding. While some are hardly touched by T. ni, others are eaten completely to the ground. Comparison of two commonly studied Arabidopsis ecotypes in choice experiments showed that Columbia is considerably more resistant than Landsberg erecta. In no-choice experiments, where larvae were… Show more

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Cited by 94 publications
(87 citation statements)
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“…The contrasting higher transcript levels in the Col ecotype (2.3-fold) of CYP83B1, which mediates synthesis of indole glucosinolates Hansen et al, 2001), suggests that compensatory interplay exists between the CYP83A1 and CYP83B1 loci as previously seen in the studies of Hemm et al (2003) and Naur et al (2003). The differential expression of CYP83A1 in these ecotypes partially explains the different basal glucosinolate profiles in the Col and Ler ecotypes (Kliebenstein et al, 2001a) and the higher overall glucosinolate content of the Ler ecotype (Jander et al, 2001). Presumably these different basal levels of glucosinolates contribute to variations in ecotype resistance to insect predators as myrosinases release toxic glucosinolate derivatives (Rask et al, 2000).…”
Section: Discussionmentioning
confidence: 49%
See 1 more Smart Citation
“…The contrasting higher transcript levels in the Col ecotype (2.3-fold) of CYP83B1, which mediates synthesis of indole glucosinolates Hansen et al, 2001), suggests that compensatory interplay exists between the CYP83A1 and CYP83B1 loci as previously seen in the studies of Hemm et al (2003) and Naur et al (2003). The differential expression of CYP83A1 in these ecotypes partially explains the different basal glucosinolate profiles in the Col and Ler ecotypes (Kliebenstein et al, 2001a) and the higher overall glucosinolate content of the Ler ecotype (Jander et al, 2001). Presumably these different basal levels of glucosinolates contribute to variations in ecotype resistance to insect predators as myrosinases release toxic glucosinolate derivatives (Rask et al, 2000).…”
Section: Discussionmentioning
confidence: 49%
“…Considerable variation that, in fact, exists at the DNA sequence level results in an extensive range of phenotypic variations between these ecotypes in biochemical and morphological characteristics associated with defense responses. Examples of this variation include differences in disease resistance (Kunkel, 1996), leaf trichome density (Larkin et al, 1996), glucosinolate content (Kliebenstein et al, 2001a;Raybould and Moyes, 2001), epicuticular wax composition (Rashotte et al, 1997), and insect resistance (Jander et al, 2001). While complicating molecular analysis of this plant species, these natural variations have provided an imported genetic resource for analyzing gene functions.…”
mentioning
confidence: 99%
“…However, the ecological roles of many of these defensive metabolites remain undefined, requiring further experiments to understand the ecological significance of these results. In particular, the biological role of simple nitrile activation products remains unclear, as simple nitrile structures are generally less toxic and provide less effective defense against polyphagous herbivores when compared directly with the corresponding isothiocyanates (Nastruzzi et al, 2000;Jander et al, 2001;Lambrix et al, 2001;Barth and Jander, 2006;Zhang et al, 2006). We hypothesize that increased proportions of simple nitrile and epithionitrile products reduce the risk of detection by adapted herbivores or provide indirect defense by attracting predators and parasites of adapted herbivores.…”
Section: Resultsmentioning
confidence: 99%
“…Indole glucosinolates have a core structure comprising a b-D-thioglucose group linked to a sulfonated aldoxime moiety and a Trp side chain. These compounds are thought to be part of a constitutive defense mechanism (Jander et al, 2001;Lambrix et al, 2001), but levels of specific indole glucosinolates can also increase upon elicitor, MeJA, or salicylic acid (SA) treatment (Doughty et al, 1995;Brader et al, 2001;Mikkelsen et al, 2003). Several genes involved in the biosynthesis of indole glucosinolates were shown to be transcriptionally regulated by MeJA (Brader et al, 2001;Mikkelsen et al, 2003).…”
Section: Insect-regulated Genesmentioning
confidence: 99%