Biochemical analysis of anthocyanin and proanthocyanidin and their regulation in determining chickpea flower and seed coat colours

Abstract

AbstractFlower and seed coat colour are important agronomic traits in chickpea (Cicer arietinum L.). Cultivated chickpeas are of two types namely, desi (dark seeded, purple flower) and kabuli (light colour seeded, white flower). There has been limited information about the molecular mechanism underlying the colour variation of flower and seed coats in desi and kabuli chickpea. We profiled the anthocyanin and proanthocyanidin (PA) contents in chickpea flowers and seed coats. Tissue-specific silencing of two genes encoding a basic helix-loop-helix (CabHLH) protein and a tonoplast-localized multidrug and toxic compound extrusion (CaMATE1) transporter in a desi genotype resulted in the reduction in expressions of anthocyanin and PA biosynthetic genes and anthocyanin and PA contents in the flower and seed coat and produced flowers and seeds with kabuli characteristics. Transcriptional regulation of a subset of anthocyanin and PA biosynthetic genes by a natural CabHLH variant and transport assay of a natural CaMATE1 variant explained the association of these alleles with the kabuli phenotype. We carried out a detailed molecular characterization of these genes, and provided evidences that kabuli chickpea flower and seed colour phenotype can be derived by manipulation of single genes in a desi chickpea background.HighlightIn this study, we have defined the molecular link between flower and seed color in chickpea and identified CaMATE1 and CabHLH as the regulators of both the traits.