Leaf metabolic profiles of two soybean genotypes differentially affect the survival and the digestibility of Anticarsia gemmatalis caterpillars

Insect pests such as Anticarsia gemmatalis cause defoliation and yield losses. Soybean breeding has obtained resistant genotypes, however the mechanism remains unknown. Studies indicated the presence of deterrents compounds in the resistant genotype IAC17, and their leaf metabolite profiles were com...

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Veröffentlicht in:Plant physiology and biochemistry 2020-10, Vol.155, p.196-212
Hauptverfasser: Gómez, Jenny D., Pinheiro, Valquiria J.M., Silva, João Carlos, Romero, Juan V., Meriño-Cabrera, Yaremis, Coutinho, Flaviane Silva, Lourenção, André L., Serrão, Jose E., Vital, Camilo Elber, Fontes, Elizabeth P.B., Oliveira, Maria G.A., Ramos, Humberto J.O.
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Sprache:eng
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Zusammenfassung:Insect pests such as Anticarsia gemmatalis cause defoliation and yield losses. Soybean breeding has obtained resistant genotypes, however the mechanism remains unknown. Studies indicated the presence of deterrents compounds in the resistant genotype IAC17, and their leaf metabolite profiles were compared to the susceptible genotype UFV105, which was elicited or not by caterpillar infestation. Cluster analysis indicated a significative distinction between these profiles as well as differences in plant defense pathways. Methylquercetins were constitutively present in the largest concentrations, specifically in the IAC17. Relationship between the resistance and the levels of phytohormones jasmonic acid, abscisic acid and salicylic acid was not observed. However, 1-aminocyclopropane -1carboxylic acid levels indicated that the ethylene may be involved in the constitutive biosynthesis of bioactive compounds. Extracts were added to the diets at three different concentrations to evaluate the effect on caterpillar survival. Lowest survival rates were observed when extracts from the resistant IAC 17 were used, at the lowest concentrations. Survival rates were not higher when IAC 17 infested by caterpillars were used. On the other hand, when extracts from the susceptible were used, the survival reductions were only observed in the highest extract concentrations. These supplementations of the diet reduced the digestive capacity, agreeing with the proteolytic activities, whereas malformations of the intestinal cells were dose dependent. The inhibitory effects persisted in higher dilutions only for the IAC17. Constitutive resistance was also explained by higher levels of protease inhibition. These results can be useful to elucidate the genes and cascades controlling the resistance. [Display omitted] •Leaf extracts added to the artificial diets affect the survival and intestine physiology.•Metabolomic profiles revealed plant defense pathways.•The highest concentrations of isorhamnetin glycoconjugates were found in the resistant genotype IAC17.•Resistance did not involve jasmonic (JA) acid and abscisic acid (ABA) cascades.•Constitutive resistance is justified by higher levels of protease inhibition and flavonoids.
ISSN:0981-9428
1873-2690
DOI:10.1016/j.plaphy.2020.07.010