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Characterization and map-based cloning of miniature2-m1, a gene controlling kernel size in maize 被引量:4
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作者 GUAN Hai-ying DONG Yong-bin +9 位作者 LU Shou-ping LIU Tie-shan HE Chun-mei LIU Chun-xiao LIU Qiang DONG Rui WANG Juan LI Yu-ling QI Shi-jun WANG Li-ming 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2020年第8期1961-1973,共13页
Kernel development plays an important role in determining kernel size in maize.Here we present the cloning and characterization of a maize gene,nitrate transporter1.5(NRT1.5),which controls small kernel phenotype by p... Kernel development plays an important role in determining kernel size in maize.Here we present the cloning and characterization of a maize gene,nitrate transporter1.5(NRT1.5),which controls small kernel phenotype by playing an important role in kernel development.A novel recessive small kernel mutant miniature2-m1(mn2-m1)was isolated from self-pollinated progenies of breeding materials.The mutant spontaneously showed small kernel character arresting both embryo and endosperm development at an early stage after pollination.Utilizing 21 polymorphic SSR markers,the mn2-m1 locus was limited to a 209.9-kb interval using 9176 recessive individuals of a BC1 segregating population from mn2-m1/B73.Only one annotated gene was located in this 209.9 kb region,Zm00001 d019294,which was predicted to encode nitrate transporter1.5(NRT1.5).Allelism tests confirmed that mn2-m1 was allelic to miniature2-m2(mn2-m2)and miniature2-710 B(mn2-710 B).The mn2-m1 and mn2-m2 alleles both had nucleotide deletions in the coding region resulting in premature termination,and the mn2-710 B allele had some missence mutations.Subcellular localization showed that Miniature 2(MN2)is localized in the plasma membrane.Quantitative real-time PCR(qRT-PCR)analysis revealed that the expression of MN2 and some genes involved in the basal endosperm transfer layer(BETL)and embryo surrounding region(ESR)development were affected in mn2-m1 seeds.These results suggested that MN2 plays an important role in maize seed development. 展开更多
关键词 miniature2-m1 nitrate transporter1.5 frame shift mutation allelism tests subcellular localization
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Allelic Tests and Sequence Analysis of Three Genes for Resistance to Xanthomonas perforans Race T3 in Tomato 被引量:1
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作者 ZHAO Baimei CAO Haipeng +1 位作者 DUAN Junjie YANG Wencai 《Horticultural Plant Journal》 SCIE 2015年第1期41-47,共7页
Three crosses,Hawaii7981×PI128216,Hawaii7981×LA1589,and PI128216×LA1589,were made to develop F_2 populations for testing allelism among three genes Xv3,Rx4,and Rx_(LA1589) conferring resistance to bacte... Three crosses,Hawaii7981×PI128216,Hawaii7981×LA1589,and PI128216×LA1589,were made to develop F_2 populations for testing allelism among three genes Xv3,Rx4,and Rx_(LA1589) conferring resistance to bacterial spot caused by Xanthomonas perforans race T3 in tomato. Each population consisted of 535–1 655 individuals. An infiltration method was used to inoculate the leaves of the parental and F_2 plants as well as the susceptible control OH88119 for detecting hypersensitive resistance(HR). The results showed that all the tomato plants except OH88119 had HR to race T3,indicating that Xv3,Rx4,and Rx_(LA1589) were allelic genes. Genomic DNA fragments of the Rx4 alleles from Hawaii7981,PI128216,and LA1589 were amplified using gene-specific primers and sequenced. No sequence variation was observed in the coding region of Rx4 in the three resistant lines. Based on the published map positions of these loci as well as the allelic tests and sequence data obtained in this study,we speculated that Xv3,Rx4,and Rx_(LA1589) were the same gene. The results will provide useful information for understanding the mechanism of resistance to race T3 and developing resistant tomato varieties. 展开更多
关键词 TOMATO tomato bacterial spot race T3 hypersensitive resistance gene allelic test
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