Computational insights and insecticidal activity of black gram defensin proteins against bruchids (Callosobruchus maculatus).
Jyotsna Dayma, Padmanav Koushik, Mamta Bhattacharjee, Bidyut Kumar Sarmah, Prakash Jyoti Kalita, Debajit Das, Sumita Acharjee
Abstract
Open AccessDefensins are small, cysteine-rich peptides involved in plant defense, though their insecticidal properties remain largely unexplored. Previously, based on transcriptome we identified a defensin gene in black gram in response to bruchid (Callosobruchus maculatus) infestation. In the present study, we cloned and sequenced full-length cDNAs of defensin genes from multiple legumes and conducted phylogenetic analyses. Two sequence variants were identified, exhibiting 95-98% homology with a previously reported insecticidal defensin gene (Accession no. AF326687). Variant 1 (DefV1) was present in black gram, pea, cowpea, and common bean, whereas variant 2 (DefV2) was identified in mung bean, chickpea, and pigeon pea. Computational analysis, including molecular docking, visualization, and molecular dynamics (MD) simulations, demonstrated enhanced interactions between DefV1 and bruchid α-amylase, suggesting a "Cork in the Bottle" inhibitory mechanism. Additionally, insect bioassays using artificial seeds supplemented with DefV1 showed no adult emergence. These findings highlight black gram defensin as a promising insecticidal agent and a potential candidate for genetic improvement of bruchid resistance in legumes.