A novel TaNF-YC10-TaNF-YB1-TabHLH95 module coordinates starch biosynthesis in wheat endosperm
Liu, Y.; Wang, Y.; Liu, H.; Wang, X.; Seung, D.; Li, T.; Liu, H.; Hou, J.; Liu, X.; Zhang, X.; Hao, C.
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Wheat grain weight and flour quality largely depend on starch biosynthesis, yet the mechanisms by which transcription factors coordinate this process remain poorly understood. In this study, using an integrative strategy that combines genome-wide association analysis with yeast two-hybrid library screening, we identify TaNF-YC10, a Nuclear Factor Y transcription factor, as a positive regulator of starch accumulation in the wheat endosperm. Loss of TaNF-YC10 reduces starch content and alters starch granule size distribution, whereas overexpression enhances starch accumulation and increases grain weight. TaNF-YC10 binds and activates core starch biosynthetic-related genes, including AGPL1, GBSS1, YUC11, and NF-YB7, and forms higher-order transcriptional complexes with TaNF-YB1 and TabHLH95 to coordinate multiple regulatory pathways. TaNF-YC10-A1-Hap2 is associated with higher starch content and thousand grain weight and has been selected during wheat breeding in China. Collectively, our findings establish TaNF-YC10 as a pivotal transcriptional hub in starch regulation and highlight its potential as a target for genetic improvement of grain yield in wheat.
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