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<scp>OsLCD3</scp> interacts with <scp>OsSAMS1</scp> to regulate grain size via ethylene/polyamine homeostasis control

Wenli Hu, Rong Wang, Xiaohua Hao, Shaozhuang Li, Xinjie Zhao, Zijing Xie, Sha Wu, Liqun Huang, Ying Tan, Lianfu Tian, Dongping Li

2024The Plant Journal11 citationsDOIOpen Access PDF

Abstract

A fundamental question in developmental biology is how to regulate grain size to improve crop yields. Despite this, little is still known about the genetics and molecular mechanisms regulating grain size in crops. Here, we provide evidence that a putative protein kinase-like (OsLCD3) interacts with the S-adenosyl-L-methionine synthetase 1 (OsSAMS1) and determines the size and weight of grains. OsLCD3 mutation (lcd3) significantly increased grain size and weight by promoting cell expansion in spikelet hull, whereas its overexpression caused negative effects, suggesting that grain size was negatively regulated by OsLCD3. Importantly, lcd3 and OsSAMS1 overexpression (SAM1OE) led to large and heavy grains, with increased ethylene and decreased polyamines production. Based on genetic analyses, it appears that OsLCD3 and OsSAMS1 control rice grain size in part by ethylene/polyamine homeostasis. The results of this study provide a genetic and molecular understanding of how the OsLCD3-OsSAMS1 regulatory module regulates grain size, suggesting that ethylene/polyamine homeostasis is an appropriate target for improving grain size and weight.

Topics & Concepts

PolyamineGrain sizeEthyleneCell biologyBiologyHomeostasisBiochemistryMutationChemistryGeneMaterials scienceMetallurgyCatalysisPlant nutrient uptake and metabolismPlant responses to water stressRice Cultivation and Yield Improvement
<scp>OsLCD3</scp> interacts with <scp>OsSAMS1</scp> to regulate grain size via ethylene/polyamine homeostasis control | Litcius