Project description:Phaseolus lunatus genomic resources

Project description:Phaseolus lunatus Variation

Project description:Understanding the complex interactions between plants and herbivores is essential for improving crop resistance. To deep into the role of cyanogenesis in plant defence, we investigated the response of the cyanogenic Phaseolus lunatus (lima bean) and the non-cyanogenic Phaseolus vulgaris (common bean) to Tetranychus urticae infestation. Despite spider mite infesting both legumes, severity of leaf damage was reduced in lima bean. Comparative transcriptome analysis revealed that both species exhibited substantial metabolic and transcriptional changes upon infestation, yet the response in P. lunatus was significantly more pronounced. Specific differences in amino acid homeostasis and in the expression of key genes of the cyanogenic pathway were observed in P. lunatus. Moreover, the mandelonitrile lyase gene (PlMNL1) was upregulated following T. urticae feeding concomitantly to an enzyme activity increase. Lima bean plants also displayed an induction of β-cyanoalanine synthase (PlCYSC1), a key enzyme for cyanide detoxification, suggesting an internal regulatory mechanism to manage the toxicity of their defence responses. These findings contribute to have a major comprehension of the plant-insect interactions and underscore the potential role of cyanogenesis in the elaboration of unique specific defensive responses, even within the same genus, which may reflect distinctive evolutionary adaptations or varying metabolic capabilities between species.

Project description:Phaseolus lunatus Organism overview

Project description:Phaseolus lunatus Phenotype or Genotype

Project description:Phaseolus lunatus Raw sequence reads

Project description:Phaseolus lunatus Raw sequence reads

Project description:Phaseolus lunatus Transcriptome or Gene expression

Project description:Sequences of viruses characterized from Phaseolus lunatus L.

Project description:Phaseolus lunatus cultivar:Bridgeton-DES4 Genome sequencing and assembly