Abstract
TCP transcription factors are known to regulate abiotic stress condition, but their role in V. unguiculata remains unexplored. So, in silico analysis and expression profile of the TCP gene family were performed in V. unguiculata to understand its role in response to heat and drought stress. A genome-wide search detected 28 TCPs (designated as VuTCPs) that were grouped into three subclasses by phylogenetic analysis. Gene structure, synteny, and phylogeny analyses of VuTCPs have shown a typical evolutionary path. One tandem and eight segmental duplication events were identified. Furthermore, identified duplicated, and orthologous VuTCP genes were under strong purifying selection pressure. A total of 15 SSRs were identified in the 12 VuTCPs, while 10 VuTCP genes were regulated by different miRNAs having a major role in abiotic stress tolerance. Analysed physicochemical properties, cis-acting elements, and gene ontology suggested that VuTCPs play various roles, including salinity and drought stress tolerance. qRT-PCR analysis showed that 11 and 15 VuTCPs were upregulated under drought and salinity stress conditions, respectively. Our findings provide comprehensive insights into the genomic characterization of the VuTCPs gene family in V. unguiculata, offering a foundation for understanding their structure, evolution, and role in abiotic stress tolerance. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s13205-024-03976-x.