Chromosome segmental introgression lines(ILs)are an effective way to utilize germplasm resources in crops.To improve agronomic traits of wheat cultivar(Triticum aestivum) Shi 4185, four sets of ILs were developed....Chromosome segmental introgression lines(ILs)are an effective way to utilize germplasm resources in crops.To improve agronomic traits of wheat cultivar(Triticum aestivum) Shi 4185, four sets of ILs were developed. The donors were Chinese endemic subspecies accessions Yunnan wheat(T. aestivum ssp. yunnanense) YN3, Tibetan semiwild wheat(T. aestivum ssp. tibetanum) XZ-ZM19450, and Xinjiang wheat(T. aestivum ssp. petropavlovskyi) XJ5, and synthetic wheat HC-XM1620 derived from a cross between T. durum acc. D67.2/P66.270 with Aegilops tauschii acc. 218.Totals of 356, 366, 445 and 457 simple sequence repeat(SSR)markers were polymorphic between Shi 4185 and YN3, XZZM19450, XJ5 and HC-XM1620, respectively. In total, 991 ILs were identified, including 300 derived from YN3, covering 95%of the genome of Shi 4185, 218 from XZ-ZM19450(79%), 279 from XJ5(97%), and 194 from HC-ZX1620(84%). The sizes and locations of each introgression were determined from a consensus SSR linkage map. Using the ILs, 11 putative Resear quantitative trait loci(QTLs) were identified for plant height(PH), spike length(SL) and grain number per spike(GNS).Comparative analyses of 24 elite ILs with the parents revealed that the four donor parents could be important resources to improve wheat SL and GNS. Our work offers a case for utilizing endemic landraces for QTL mapping and improvement of wheat cultivars using introgression lines.展开更多
基金sponsored by the Ministry of Science and Technology of China(2013BAD01B02)the National Science and Technology Major Project of China(2009ZX08009010)
文摘Chromosome segmental introgression lines(ILs)are an effective way to utilize germplasm resources in crops.To improve agronomic traits of wheat cultivar(Triticum aestivum) Shi 4185, four sets of ILs were developed. The donors were Chinese endemic subspecies accessions Yunnan wheat(T. aestivum ssp. yunnanense) YN3, Tibetan semiwild wheat(T. aestivum ssp. tibetanum) XZ-ZM19450, and Xinjiang wheat(T. aestivum ssp. petropavlovskyi) XJ5, and synthetic wheat HC-XM1620 derived from a cross between T. durum acc. D67.2/P66.270 with Aegilops tauschii acc. 218.Totals of 356, 366, 445 and 457 simple sequence repeat(SSR)markers were polymorphic between Shi 4185 and YN3, XZZM19450, XJ5 and HC-XM1620, respectively. In total, 991 ILs were identified, including 300 derived from YN3, covering 95%of the genome of Shi 4185, 218 from XZ-ZM19450(79%), 279 from XJ5(97%), and 194 from HC-ZX1620(84%). The sizes and locations of each introgression were determined from a consensus SSR linkage map. Using the ILs, 11 putative Resear quantitative trait loci(QTLs) were identified for plant height(PH), spike length(SL) and grain number per spike(GNS).Comparative analyses of 24 elite ILs with the parents revealed that the four donor parents could be important resources to improve wheat SL and GNS. Our work offers a case for utilizing endemic landraces for QTL mapping and improvement of wheat cultivars using introgression lines.
