Integrating alleles from Gossypium species into G.hirsutum is important for the enhancement of genetic variability and for creating polymorphism useful in molecular mapping studies.Through collaborative efforts,severa...Integrating alleles from Gossypium species into G.hirsutum is important for the enhancement of genetic variability and for creating polymorphism useful in molecular mapping studies.Through collaborative efforts,several species including G.barbadense,G.tomentosum,and G.mustelinum展开更多
Gossypium mustelinum [(AD)4] is one of five tetraploid species in Gossypium.Three pairs of nucleolar organizer regions(NOR) in(AD)4 were detected by FISH with 45S rDNA as a probe,they also were observed with genomic D...Gossypium mustelinum [(AD)4] is one of five tetraploid species in Gossypium.Three pairs of nucleolar organizer regions(NOR) in(AD)4 were detected by FISH with 45S rDNA as a probe,they also were observed with genomic DNA(gDNA) from Gossypium D genome species as probes.Of展开更多
The genetic base that cotton breeders commonly use to improve Upland cultivars is very narrow.The AD-genome species Gossypium barbadense,G.tomentosum,and G.mustelinum are part of
Fluorescent in situ hybridization(FISH) is an important technique in plant genome research,because it provides integrated information about DNA,chromosomes and genomes.Genomic in situ hybridization(GISH) is a modifica...Fluorescent in situ hybridization(FISH) is an important technique in plant genome research,because it provides integrated information about DNA,chromosomes and genomes.Genomic in situ hybridization(GISH) is a modification of FISH that can be used to rapidly compare genome content,relatedness,organization and/or behavior.GISH results often provide insight into genome evolution and species relationships.The cotton genus Gossypium consists of about 50 species,including 5展开更多
Cotton is viewed as the most important cash crop in the world,and sustains the agricultural economies of many nations by providing a sustainable fiber product for the textile industry.Due to
文摘Integrating alleles from Gossypium species into G.hirsutum is important for the enhancement of genetic variability and for creating polymorphism useful in molecular mapping studies.Through collaborative efforts,several species including G.barbadense,G.tomentosum,and G.mustelinum
文摘Gossypium mustelinum [(AD)4] is one of five tetraploid species in Gossypium.Three pairs of nucleolar organizer regions(NOR) in(AD)4 were detected by FISH with 45S rDNA as a probe,they also were observed with genomic DNA(gDNA) from Gossypium D genome species as probes.Of
文摘The genetic base that cotton breeders commonly use to improve Upland cultivars is very narrow.The AD-genome species Gossypium barbadense,G.tomentosum,and G.mustelinum are part of
文摘Fluorescent in situ hybridization(FISH) is an important technique in plant genome research,because it provides integrated information about DNA,chromosomes and genomes.Genomic in situ hybridization(GISH) is a modification of FISH that can be used to rapidly compare genome content,relatedness,organization and/or behavior.GISH results often provide insight into genome evolution and species relationships.The cotton genus Gossypium consists of about 50 species,including 5
文摘Cotton is viewed as the most important cash crop in the world,and sustains the agricultural economies of many nations by providing a sustainable fiber product for the textile industry.Due to