KIN10‐mediated HB16 protein phosphorylation and self‐association improve cassava disease resistance by transcriptional activation of lignin biosynthesis genes

Abstract

SummaryCassava bacterial blight significantly affects cassava yield worldwide, while major cassava cultivars are susceptible to this disease. Therefore, it is crucial to identify cassava disease resistance gene networks and defence molecules for the genetic improvement of cassava cultivars. In this study, we found that MeHB16 transcription factor as a differentially expressed gene in cassava cultivars with contrasting disease resistance, positively modulated disease resistance by modulating defence molecule lignin accumulation. Further investigation showed that MeHB16 physically interacted with itself via the leucine‐Zippe domain (L‐Zip), which was necessary for the transcriptional activation of downstream lignin biosynthesis genes. In addition, protein kinase MeKIN10 directly interacted with MeHB16 to promote its phosphorylation at Ser6, which in turn enhanced MeHB16 self‐association and downstream lignin biosynthesis. In summary, this study revealed the molecular network of MeKIN10‐mediated MeHB16 protein phosphorylation improved cassava bacterial blight resistance by fine‐tuning lignin biosynthesis and provides candidate genes and the defence molecule for improving cassava disease resistance.