Zinc finger transcriptional repressor ZOS5-09 regulates grain filling and development in rice

Abstract

Grain size is one of the key determinants of grain yield. Our study focuses on a novel seed-preferential C2H2 zinc finger transcription factor, ZOS5-09 (LOC_Os05g38600) that plays an important role in regulating rice grain traits. Rice plants with the ZOS5-09 promoter::GUS construct showed high expression of ZOS5-09 in rice endosperm. In planta reporter effector assays and localization studies showed that ZOS5-09 is a nuclear-localized transcriptional repressor. It has two C2H2 zinc finger domains and a C-terminal NoRS (nucleolar retention signal). Ectopic and seed-preferential overexpression of ZOS5-09 resulted in lethality. Seed-preferential overexpression without NoRS was detrimental to grain filling. Rice plants with knock-down or CRISPR-based knock-out of ZOS5-09 displayed reduced grain length and weight but increased grain width. Grain size change was due to lower cell proliferation and increased cell size in the transverse direction because of downregulation of cell cycle-related genes and increased expression of expansins. Decreased expression of ZOS5-09 also resulted in reduced total starch and protein content and higher endosperm chalkiness, thus negatively affecting grain quality. ZOS5-09 directly bound to a zinc finger–binding site and regulated a seed storage protein-encoding gene, GLU6. It acted as a repressor by promoting deacetylation upon interaction with a histone deacetylase. In summary, our results indicate that an optimum expression of ZOS5-09 is essential for proper rice grain development. Our study highlights the role of a transcriptional repressor in regulating rice grain traits and improves our understanding of the transcriptional regulatory networks affecting grain size.