Abstract
Starch is biosynthesized during seed development and this process is regulated by many bZIP proteins in bread wheat. Abscisic acid (ABA), an important phyto-hormone involved in various physiological processes mediated by bZIPs in plants including seed development. The 'Group A' TabZIP transcription factors play important roles in the ABA signaling pathway in Arabidopsis, rice and other cereal crops but their role in regulation of amylose biosynthesis in wheat is limited. In this study 83 'Group A' TabZIPs were characterized by gene expression analysis in wheat amylose mutants. A set of 17 TabZIPs was selected on the basis of differential expression (> 2 fold) in low and high amylose mutants from RNA-seq data and validated by qRT PCR. Based on qRT PCR and correlation analysis out of the 17 TabZIPs six differentially expressed candidate TabZIPs were identified, involving in high amylose biosynthesis. The TabZIP175.2, identified as upregulated in all high amylose lines and TabZIP90.2, TabZIP129.1, TabZIP132.2, TabZIP143 and TabZIP159.2 were found downregulated in all low amylose lines, after exogenous supply of ABA. Proximal promoter analysis of starch pathway genes revealed the presence of ABA-responsive elements (ABREs) that are putative binding sites for bZIPs. Collectively, these findings indicated the involvement of putative six candidate TabZIPs as transcriptional regulators of amylose related genes via an ABA-dependent pathway in wheat. This study could help the investigators to make an informed decision to edit wheat genome for high/low amylose content using gene-editing technologies.
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