This paper reports a new transgenic tobacco line NC89 resistant to both tobaccomosaic virus(TMV)and cucumber mosaic virus(CMV).It deals with the details of field experi-ments of the whole process of segregation and se...This paper reports a new transgenic tobacco line NC89 resistant to both tobaccomosaic virus(TMV)and cucumber mosaic virus(CMV).It deals with the details of field experi-ments of the whole process of segregation and selection of the progenies of transgenic plant popu-lation.By using the gene transfer technics,some transgenic plants resistant to mosaic disease froma flue-cured tobacco cultivar NC89 were obtained in green house in 1989.Thereafter,throughfield inoculation and selection from the 2nd and 3rd generations,a homozygous line resistant toboth viruses and with good qualities was bred out.The inheretant stability of the resistance of thenew line was confirmed through the 4th to 6th generations.In 1992,the transgenic resistant linewas planted about 7000 hectares in Henan province.The relative effect of controlling mosaic dis-eases of tobacco was 50—70%.The out-put value increased 30—50% per unit area.This is a newexample of growing a transgenic virus-resistant Plant in large scale in China.展开更多
Soybean mosaic virus (SMV) disease is one of the most destructive viral diseases in soybean (Glycine max (L.) Merr.). SMV strain SC3 is the major prevalent strain in huang-huai and Yangtze valleys, China. The so...Soybean mosaic virus (SMV) disease is one of the most destructive viral diseases in soybean (Glycine max (L.) Merr.). SMV strain SC3 is the major prevalent strain in huang-huai and Yangtze valleys, China. The soybean cultivar Qihuang 1 is of a rich resistance spectrum and has a wide range of application in breeding programs in China. In this study, F1, F2 and F2:3 from Qihuang 1×nannong 1138-2 were used to study inheritance and linkage mapping of the SC3 resistance gene in Qihuang 1. The secondary F2 population and near isogenic lines (nILs) derived from residual heterozygous lines (RhLs) of Qihuang 1×nannong 1138-2 were separatively used in the ifne mapping and candidate gene analysis of the resistance gene. Results indicated that a single dominant gene (designated RSC3Q) controls resistance, which was located on chromosome 13. Two genomic-simple sequence repeat (SSR) markers BARCSOYSSR_13_1114 and BARCSOYSSR_13_1136 were found lfanking the two sides of the RSC3Q. The interval between the two markers was 651 kb. Quantitative real-time PCR analysis of the candidate genes showed that ifve genes (Glyma13g25730, 25750, 25950, 25970 and 26000) were likely involved in soybean SMV resistance. These results would have utility in cloning of RSC3Q resistance candidate gene and marker-assisted selection (MaS) in resistance breeding to SMV.展开更多
文摘This paper reports a new transgenic tobacco line NC89 resistant to both tobaccomosaic virus(TMV)and cucumber mosaic virus(CMV).It deals with the details of field experi-ments of the whole process of segregation and selection of the progenies of transgenic plant popu-lation.By using the gene transfer technics,some transgenic plants resistant to mosaic disease froma flue-cured tobacco cultivar NC89 were obtained in green house in 1989.Thereafter,throughfield inoculation and selection from the 2nd and 3rd generations,a homozygous line resistant toboth viruses and with good qualities was bred out.The inheretant stability of the resistance of thenew line was confirmed through the 4th to 6th generations.In 1992,the transgenic resistant linewas planted about 7000 hectares in Henan province.The relative effect of controlling mosaic dis-eases of tobacco was 50—70%.The out-put value increased 30—50% per unit area.This is a newexample of growing a transgenic virus-resistant Plant in large scale in China.
基金supported by the National Natural Science Foundation of China (31171574, 31371646)the National Soybean Industrial Technology System of China (CARS-004)the Fund for Transgenic Breeding of Soybean Resistant to Soybean Mosaic Virus, China (2008ZX08004-004)
文摘Soybean mosaic virus (SMV) disease is one of the most destructive viral diseases in soybean (Glycine max (L.) Merr.). SMV strain SC3 is the major prevalent strain in huang-huai and Yangtze valleys, China. The soybean cultivar Qihuang 1 is of a rich resistance spectrum and has a wide range of application in breeding programs in China. In this study, F1, F2 and F2:3 from Qihuang 1×nannong 1138-2 were used to study inheritance and linkage mapping of the SC3 resistance gene in Qihuang 1. The secondary F2 population and near isogenic lines (nILs) derived from residual heterozygous lines (RhLs) of Qihuang 1×nannong 1138-2 were separatively used in the ifne mapping and candidate gene analysis of the resistance gene. Results indicated that a single dominant gene (designated RSC3Q) controls resistance, which was located on chromosome 13. Two genomic-simple sequence repeat (SSR) markers BARCSOYSSR_13_1114 and BARCSOYSSR_13_1136 were found lfanking the two sides of the RSC3Q. The interval between the two markers was 651 kb. Quantitative real-time PCR analysis of the candidate genes showed that ifve genes (Glyma13g25730, 25750, 25950, 25970 and 26000) were likely involved in soybean SMV resistance. These results would have utility in cloning of RSC3Q resistance candidate gene and marker-assisted selection (MaS) in resistance breeding to SMV.