Benyamin Houshyani scite author profile

The cabbage aphid Brevicoryne brassicae is a specialist herbivore that sequesters glucosinolates from its host plant as a defense against its predators. It is unknown to what extent parasitoids are affected by this sequestration. We investigated herbivore-mediated effects of glucosinolates on the parasitoid wasp Diaeretiella rapae and the predator Episyrphus balteatus. We reared B. brassicae on three ecotypes of Arabidopsis thaliana that differ in glucosinolate content and on one genetically transformed line with modified concentrations of aliphatic glucosinolates. We tested aphid performance and the performance and behavior of both natural enemies. We correlated this with phloem and aphid glucosinolate concentrations and emission of volatiles. Brevicoryne brassicae performance correlated positively with concentrations of both aliphatic and indole glucosinolates in the phloem. Aphids selectively sequestered glucosinolates. Glucosinolate concentration in B. brassicae correlated negatively with performance of the predator, but positively with performance of the parasitoid, possibly because the aphids with the highest glucosinolate concentrations had a higher body weight. Both natural enemies showed a positive performance-preference correlation. The predator preferred the ecotype with the lowest emission of volatile glucosinolate breakdown products in each test combination, whereas the parasitoid wasp preferred the A. thaliana ecotype with the highest emission of these volatiles. The study shows that there are differential herbivore-mediated effects of glucosinolates on a predator and a parasitoid of a specialist aphid that selectively sequesters glucosinolates from its host plant.Electronic supplementary materialThe online version of this article (doi:10.1007/s10886-012-0065-2) contains supplementary material, which is available to authorized users.

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Genetic variation in strigolactone production and tillering in rice and its effect on Striga hermonthica infection

Jamil¹,

Charnikhova²,

Houshyani³

et al. 2011

Planta

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Tillering in cereals is a complex process in the regulation of which also signals from the roots in the form of strigolactones play an important role. The strigolactones are signalling molecules that are secreted into the rhizosphere where they act as germination stimulants for root parasitic plants and hyphal branching factors for arbuscular mycorrhizal fungi. On the other hand, they are also transported from the roots to the shoot where they inhibit tillering or branching. In the present study, the genetic variation in strigolactone production and tillering phenotype was studied in twenty rice varieties collected from all over the world and correlated with S. hermonthica infection. Rice cultivars like IAC 165, IAC 1246, Gangweondo and Kinko produced high amounts of the strigolactones orobanchol, 2′-epi-5-deoxystrigol and three methoxy-5-deoxystrigol isomers and displayed low amounts of tillers. These varieties induced high S. hermonthica germination, attachment, emergence as well as dry biomass. In contrast, rice cultivars such as Super Basmati, TN 1, Anakila and Agee displayed high tillering in combination with low production of the aforementioned strigolactones. These varieties induced only low S. hermonthica germination, attachment, emergence and dry biomass. Statistical analysis across all the varieties confirmed a positive correlation between strigolactone production and S. hermonthica infection and a negative relationship with tillering. These results show that genetic variation in tillering capacity is the result of genetic variation in strigolactone production and hence could be a helpful tool in selecting rice cultivars that are less susceptible to S. hermonthica infection.Electronic supplementary materialThe online version of this article (doi:10.1007/s00425-011-1520-y) contains supplementary material, which is available to authorized users.

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Effects of glucosinolates on a generalist and specialist leaf-chewing herbivore and an associated parasitoid

et al. 2012

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of Arabidopsis thaliana that differ in their GLS composition and concentrations and one 32 transformed line that constitutively produces higher concentrations of aliphatic GLS were 33 used, the latter allowing a direct assessment of the effects of aliphatic GLS on insect 34 performance. 35Feeding by the generalist S. exigua and the specialist P. rapae induced both higher 36 aliphatic and indole GLS concentrations in the A. thaliana ecotypes, although induction was 37 stronger for indole than aliphatic GLS. For both herbivores a negative correlation between 38 performance and aliphatic GLS concentrations was observed. This suggests that the specialist, 39 despite containing a nitrile-specifier protein (NSP) that diverts GLS degradation from toxic 40 isothiocyanates to less toxic nitriles, cannot completely inhibit the formation of toxic GLS 41 hydrolytic products, or that the costs of this mechanism are higher at higher GLS

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Characterization of the natural variation in Arabidopsis thaliana metabolome by the analysis of metabolic distance

et al. 2011

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Metabolite fingerprinting is widely used to unravel the chemical characteristics of biological samples. Multivariate data analysis and other statistical tools are subsequently used to analyze and visualize the plasticity of the metabolome and/or the relationship between those samples. However, there are limitations to these approaches for example because of the multi-dimensionality of the data that makes interpretation of the data obtained from untargeted analysis almost impossible for an average human being. These limitations make the biological information that is of prime importance in untargeted studies be partially exploited. Even in the case of full exploitation, current methods for relationship elucidation focus mainly on between groups variation and differences. Therefore, a measure that is capable of exploiting both between- and within-group biological variation would be of great value. Here, we examined the natural variation in the metabolome of nine Arabidopsis thaliana accessions grown under various environmental conditions and established a measure for the metabolic distance between accessions and across environments. This data analysis approach shows that there is just a minor correlation between genetic and metabolic diversity of the nine accessions. On the other hand, it delivers so far in Arabidopsis unexplored chemical information and is shown to be biologically relevant for resistance studies.Electronic supplementary materialThe online version of this article (doi:10.1007/s11306-011-0375-3) contains supplementary material, which is available to authorized users.

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Genetic engineering of plant volatile terpenoids: effects on a herbivore, a predator and a parasitoid

Kos

Houshyani²,

Overeem

et al. 2012

Pest Management Science

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