Grain size is one of the most important factors affecting rice grain quality and yield,and attracts great attention from molecular biologists and breeders.In this study,we engineered a CRISPR/Cas9 system tar-geting the miR396 recognition site of the rice GS2 gene,which encodes growth-regulating factor 4(OsGRF4)and regulates multiple agronomic traits including grain size,grain quality,nitrogen use effi-ciency,abiotic stress response,and seed shattering.In contrast to most previous genome editing efforts in which indel mutations were chosen to obtain null mutants,a mutant named GS2E carrying an in-frame 6-bp deletion and 1-bp substitution within the miR396-targeted sequence was identified.GS2E plants showed increased expression of GS2 in consistent with impaired repression by miR396.As expected,the gain-of-function GS2E mutant exhibited multiple beneficial traits including increased grain size and yield and bigger grain length/width ratio.Thousand grain weight and grain yield per plant of GS2E plants were increased by 23.5％and 10.4％,respectively.These improved traits were passed to hybrids in a semi-dominant way,suggesting that the new GS2E allele has great potential in rice improvement.Taken together,we report new GS2 germplasm and describe a novel gene-editing strategy that can be widely employed to improve grain size and yield in rice.This trait-improvement strategy could be applied to other genes containing miRNA target sites,in particular the conserved miR396-GRF/GIF module that gov-erns plant growth,development and environmental response.

Wenshu Wang;Weipeng Wang;Yanlin Pan;Chao Tan;Hongjing Li;Ya Chen;Xingdan Liu;Jing Wei;Nian Xu;Yu Han;Han Gu;Rongjian Ye;Qi Ding;Chonglie Ma

Life Science and Technology Center,China National Seed Group Co.,Ltd.,Wuhan 430000,Hubei,China;State Key Laboratory of Crop Breeding Technology Innovation and Integration,China National Seed Group Co.,Ltd.,Wuhan 430000,Hubei,China

作物学报（英文版）

[1]Wenshu Wang;Weipeng Wang;Yanlin Pan;Chao Tan;Hongjing Li;Ya Chen;Xingdan Liu;Jing Wei;Nian Xu;Yu Han;Han Gu;Rongjian Ye;Qi Ding;Chonglie Ma-.A new gain-of-function OsGS2/GRF4 allele generated by CRISPR/Cas9 genome editing increases rice grain size and yield)[J].作物学报（英文版）,2022(04):1207-1212

OsGS2,GRF4,OsGRF4,GS2E,erns

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