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Rapid Up-Regulation of Mobilization Genes in Infested Resistant Plants Against Hessian Fly

This study explores the rapid up-regulation of gene expressions related to resource mobilization in resistant plants infested by the Hessian fly. It highlights key genes involved in lipid catabolism, transport mechanisms, carbohydrate metabolism, and protein/amino acid catabolism. Data indicates significant differential regulation of these genes during incompatible and compatible interactions with the pest. The analysis, supported by Tables and graphical representations, sheds light on the plants' defense strategies through gene expression changes at various time points post-infestation.

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Rapid Up-Regulation of Mobilization Genes in Infested Resistant Plants Against Hessian Fly

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  1. A B a a b b C D a a b b Figure S2. Resource mobilization genes are up-regulated rapidly in infested resistant plants. (A) Genes involved in lipid catabolism (Table S3). (a) Percentages of lipid-related genes that were up- (darker bar) or down-regulated (lighter bar) in plants during incompatible (I) and compatible (C) interactions. (b) Average fold changes of lipid-related genes at different time points after Hessian fly infestation. IU, ID, CU, and CD represent fold changes of up-regulated transcripts during incompatible interaction, of down-regulated transcripts during incompatible interactions, of up-regulated transcripts during compatible interactions, and of down-regulated transcripts during compatible interactions. (B) Genes encoding other types of transporters. (C) Genes encoding carbohydrate and protein/amino acid catabolic enzymes. (D) Genes encoding various anabolic enzymes.

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