The LARGE1 controls grain size by repressing the interaction between PGL2 and APG in rice
Yapei Liu, Hao Zhang, Ying Gao, Xingni Xi, Yuhan Zhang, Jia Lyu, Limin Zhang, Yunhai Li

TL;DR
This paper explains how a protein called LARGE1 controls rice grain size by interacting with other proteins, offering a new way to improve crop yields.
Contribution
The study reveals a novel regulatory module involving LARGE1, PGL2, and APG in controlling rice grain size.
Findings
LARGE1 represses the PGL2/APG heterodimer formation by competitively binding PGL2.
PGL2 suppresses APG's transcriptional activation activity by forming a heterodimer.
The GSK2-LARGE1-PGL2/APG module fine-tunes grain size in rice.
Abstract
Grain size has long been recognized as a key determinant of yield potential in crops. Understanding the mechanisms governing grain size is critical for breeding high‐yielding varieties. In a previous work, we revealed that the RNA‐binding protein LARGE1 acts as a negative regulator of grain size and weight in rice. LARGE1 interacts with GSK2 (GLYCOGEN SYNTHASE KINASE2) and is phosphorylated by GSK2. Here, we report that LARGE1 physically interacts with an atypical non‐DNA‐binding bHLH protein PGL2 that positively influences grain size. Biochemical analyses show that PGL2 binds to APG, a typical DNA‐binding bHLH protein that negatively regulates grain size. PGL2 suppresses the transcriptional activation activity of APG by forming the PGL2/APG heterodimer. Strikingly, LARGE1 can repress the formation of the heterodimer PGL2/APG by competitively binding PGL2, thereby releasing the…
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Taxonomy
TopicsPlant Molecular Biology Research · Genetic Mapping and Diversity in Plants and Animals · Rice Cultivation and Yield Improvement
