VRS5 (HvTB1) binds to the promoter of tillering and floral homeotic genes to regulate their expression

Abstract

AbstractVariation in shoot architecture, or tillering, is an important adaptive trait targeted during the domestication of crops. A well-known regulatory factor in shoot architecture is TEOSINTE BRANCHED 1 (TB1). TB1 and its orthologs have a conserved function in integrating environmental signals to regulate axillary branching, or tillering in cereals. The barley ortholog of TB1,VULGARE ROW-TYPE SIX 5(VRS5) does not only regulate tillering, but is also involved in regulating row-type by inhibiting lateral spikelet development. These discoveries predominantly come from genetic studies, but how VRS5 regulates these processes on a molecular level remains largely unknown. By combining transcriptome analysis betweenvrs5and wild type at different developmental stages and DAP-sequencing to locate the genome-wide DNA binding sites of VRS5, we identifiedbona fidetargets of VRS5. We found that VRS5 targets abscisic acid related genes, potentially to inhibit tillering in a conserved way. While later in inflorescence development, row-type geneVRS1and several known floral development genes, like MIKCc type MADS-box genes, are targeted. This study identifies several significant genes for mutational analysis, representing a selection ofbona fidetargets that will contribute to a deeper understanding of the VRS5 network and its role in shaping barley development.