中国农业科学2025,Vol.58Issue(24):5097-5109,13.DOI:10.3864/j.issn.0578-1752.2025.24.001
水稻粒型突变体sgd13的鉴定及其基因定位
Identification and Gene Mapping of Rice Grain Shape Mutant sgd13
摘要
Abstract
[Objective]Grain shape is an important agronomic trait affecting rice yield and quality,and its development is regulated by the three-dimensional morphology of grain(grain length,grain width,grain thickness).Identification and cloning of grain shape regulatory genes can enrich the molecular mechanism of rice grain development regulation,and provide theoretical basis and genetic resources for high-yield molecular design breeding of rice.[Method]A stable inherited grain type mutant sgd13(small grain and dwarf 13)was screened from the mutant library of Nanjing 9108 induced by ethyl methane sulfonate(EMS).The grain morphology,1000-grain weight,seed setting rate,yield per plant,plant height,panicle length and other phenotypes of the mutants were statistically analyzed.Paraffin sections and scanning electron microscopy were used to analyze the changes in the number and size of glume and stem cells.The genetic analysis of sgd13 and Nanjing 9108 was carried out.The F2 population constructed by sgd13 and Nanjing 9108 was used to locate the gene by BSA-seq technology.The SWISS-MODEL website was used to predict the three-dimensional structure of wild-type and mutant proteins.[Result]The grains of sgd13 were significantly smaller and narrower,the grain length decreased by 19.98%,and the grain width decreased by 7.81%.Compared with WT,the plant height,spike length and yield per plant of sgd13 were significantly reduced.There was no significant difference in the number of internodes between sgd13 and WT,but the lengths of the first,second,third and sixth internodes were shorter.Cytological analysis showed that the glume and stem cells of sgd13 became smaller and less,indicating that sgd13 may affect organ development by regulating cell division and expansion.Genetic analysis confirmed that the trait was controlled by a single recessive nuclear gene.The candidate gene was mapped to LOC_Os01g52550 by BSA-seq,which encodes an ATP-binding cassette(ABC)transporter.The ABC transporter contains two typical core domains:A highly conserved nucleotide binding domain(NBD)and a less conserved transmembrane domain(TMD).In the sgd13 mutant,a single base substitution(T→A)occurred in the exon region of the gene,which was located in the NBD domain.This single base substitution directly causes the encoded amino acid to change from glutamic acid(E)to aspartic acid(D).Due to the differences in side chain structure and chemical properties between glutamic acid and aspartic acid,this change is likely to affect the spatial structure of SGD13 protein,thereby interfering with its normal function,and ultimately leading to a unique phenotype of the mutant sgd13.Genetic complementation experiments showed that the introduction of wild-type LOC_Os01g52550 could restore the grain shape of sgd13 to the wild-type level.[Conclusion]The sgd13 mutant phenotype was controlled by a single recessive nuclear gene,which was caused by the LOC_Os01g52550 mutation.The T→A mutation in the exon region of the gene causes the glutamic acid in the NBD domain to become aspartic acid,which affects the three-dimensional structure of the protein.关键词
水稻/粒型/突变体/基因定位/ABC转运蛋白Key words
rice(Oryza sativa L.)/grain shape/mutant/gene mapping/ABC transporter protein引用本文复制引用
ZHUANG LiHua,LUO Lei,ZHAO ChunFang,WANG JiZhong,ZHANG YaDong,HE Lei..水稻粒型突变体sgd13的鉴定及其基因定位[J].中国农业科学,2025,58(24):5097-5109,13.基金项目
江苏省种业振兴揭榜挂帅项目(JBGS[2021]001)、现代农业产业技术体系建设专项资金(CARS-01) (JBGS[2021]001)
