Genome wide characterization and expression insights of Auxin Response Factor (ARF) gene family in cabbage in response to clubroot disease

Abstract

Auxin response factors (ARFs) regulate genes expression in response to auxin. Auxin performs a significant role in plant development and growth such as vascular tissue differentiation, root initiation and apical dominance. Within plants, auxin promotes the growth of vascular tissue differentiation, apical dominance and at the cellular level, auxin helps cells to divide and differentiate. Members of the ARF family carry a DNA binding domain (DBD) that binds to specific DNA sequences in the promoters of target genes. Despite the crucial role of the ARF gene family, no comprehensive study has been carried out to characterize the comparative ARF in B oleracea and A thaliana. For this reason, an in-silico approach was adopted. During the study, we found 49 genes in B oleracea and 37 genes in A thaliana. Of these, only 17 and 22 genes were studied due to their redundancy. In the phylogenetic analysis, we included B oleracea, B rapa, B napus and A thaliana and divided them into four groups based on conserved domains. Chromosomal mapping identified the positions of the genes on different chromosomes. The diversity of introns in the gene structure varies from 1 to 13 and up to five protein motifs are shown on each gene. Many transcription factors were identified by cis-regulatory elements. Gene expression revealed the involvement of BolARFs in root gall disease. The presence of nine different conserved domains was observed, of which B3, AUX_IAA superfamily together with auxin response were dominantly repeated in maximum number of genes. The overall study provides new insights and directions for further research and analysis in the future.