Abstract
Trithorax group proteins are chromatin-remodeling factors that activate target gene expression by antagonistically functioning against the Polycomb group. In Arabidopsis (Arabidopsis thaliana), Arabidopsis Trithorax protein1 (ATX1) regulates flowering time and floral organ identity. Here, we observed that suppression of Oryza sativa Trithorax1 (OsTrx1), an ortholog of ATX1, delayed flowering time in rice (Oryza sativa). Because the delay occurred only under long-day conditions, we evaluated the flowering signal pathways that specifically function under long-day conditions. Among them, the OsMADS50 and Heading date1 pathways were not affected by the mutation. However, the Grain number, plant height, and heading date7 (Ghd7) pathway was altered in ostrx1. Transcript levels of OsGI, phytochrome genes, and Early heading date3 (Ehd3), which function upstream of Ghd7, were unchanged in the mutant. Because Trx group proteins form a complex with other proteins to modify the chromatin structure of target genes, we investigated whether OsTrx1 interacts with a previously identified protein that functions upstream of Ghd7. We demonstrated that the plant homeodomain motif of OsTrx1 binds to native histone H3 from the calf thymus and that OsTrx1 binds to Ehd3 through the region between the plant homeodomain and SET domains. Finally, we showed that the SET domain at the C-terminal end of OsTrx1 has histone H3 methyltransferase activity when incubated with oligonucleosomes. Our results suggest that OsTrx1 plays an important role in regulating flowering time in rice by modulating chromatin structure.
Highlights
Trithorax group proteins are chromatin-remodeling factors that activate target gene expression by antagonistically functioning against the Polycomb group
Because Arabidopsis Trithorax protein1 (ATX1) functions to control flowering time in Arabidopsis, we speculated that the Trx genes are functionally conserved in the plant kingdom
A similar, stage-related, expression pattern was observed from the ostrx1 mutant (Supplemental Fig. S5B). These results indicated that Oryza sativa Trithorax1 (OsTrx1) functions as a negative regulator of Ghd7, independently from Early heading date3 (Ehd3) and Heading date17 (Hd17)/Early flowering7 (Ef7)/OsELF3-1
Summary
Trithorax group proteins are chromatin-remodeling factors that activate target gene expression by antagonistically functioning against the Polycomb group. Because Trx group proteins form a complex with other proteins to modify the chromatin structure of target genes, we investigated whether OsTrx interacts with a previously identified protein that functions upstream of Ghd. The TrxG proteins are components of complexes that consist of three groups of proteins: histone-modifying, ATP-dependent chromatin-remodeling, and sequencespecific DNA-binding proteins. They associate with each other in modifying histone marks or by forming a proper transcriptional status (Schuettengruber et al, 2011). Trx is part of trithorax acetylation complex (TAC1), which interacts with the histone acetyltransferase cAMP-response element-binding protein and the SET-binding factor (Petruk et al, 2001)
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