A rice gene, OsPL, encoding a MYB family transcription factor confers anthocyanin synthesis, heat stress response and hormonal signaling.

Plants with purple leave attain interest because of their biological importance. A new rice mutant, purple leaf (pl) was isolated from an indicia cultivar Zhenong 34, which was induced by ethyl methane sulfonate (EMS) mutagenesis. The genetic analyses substantiated that pl was corroborated by one recessive allele and confirmed by map based cloning using Insertion-Deletion (InDel) markers located on the long arm of chromosome 5. DNAseq data of the candidate part showed one bp insertion ('C' insertion) at +901 bp position in the 3rd exon of OsPL gene. The pl was characterized as purple leaves, sheaths and leaf senescence phenotype at late grain filling stage of growth cycle. It possessed abnormal cell with distorted chloroplasts, less chlorophyll, and increased anthocyanin content in leaves. The anthocyanin biosynthesis genes, OsPAL, OsCHS, OsANS, and OsMYB55 showed up-regulation in pl plants compared to wild type (WT). High super oxide dismutase enzyme (SOD), catalase enzyme activity (CAT), total soluble sugar (TSS) and malondialdehyde activity (MDA) were detected in the pl; contrastingly, photosynthesis linked genes were down-regulated. The germinated pl seeds showed comparatively higher temperature stress tolerance than WT. The phytohormones abscicic acid (ABA), jasmonic acid (JA) and indole acetic acid (IAA) content were increased significantly in the pl plants. This research work will be provided information on better understanding of the molecular mechanism toward the anthocyanin biosynthetic pathway in rice. Therefore, OsPL gene could be a good genetic tool in marker aided backcrossing or gene editing for improving the rice cultivation in future.