Genome-wide identification and characterization of family gene in cotton and their potential role in salt stress tolerance.

Heat shock proteins 90 (HSP90s) are conserved molecular chaperones essential for cellular homeostasis under abiotic stress. While several studies have been reported to elucidate the role of HSP90s in heat stress responses in cotton, their involvement in salt stress remains underexplored. L. is highly susceptible to salt stress. The Current study investigated the evolutionary aspects, expression patterns, and functional validation of family members in cotton under salt stress. A comprehensive genomic analysis of , , and , identified 56 genes which were classified into three distinct phylogenetic groups. Gene structure and motifs analysis revealed a conserved nature of within each group. Additionally, -acting elements suggested the potential roles of in biotic and abiotic stresses. The Ka/Ks ratio of all genes was < 1 suggesting negative and purifying selection pressure during molecular evolution. Expression analysis demonstrated the potential role of genes in salt tolerance. Notably, out of ten genes five genes exhibited highly differential expression under salt stress, as confirmed by qRT-PCR analysis. Moreover, virus-induced silencing of the two salt stress-responsive genes, and , which were upregulated under salt stress, resulted in a significant decrease in SOD, POD, and CAT, accompanied by a marked increase in MDA content in the salt-tolerant cotton cultivar. These findings provide novel insights into the functional roles of in under salt stress.