利用AFLP构建棉花遗传图谱及纤维品质性状QTL分析-《江苏农业科学》

参考文献/References:

［1］张培通，郭旺珍，朱协飞，等. 高产棉花品种泗棉3号产量及其构成因素的QTL标记和定位［J］. 作物学报，2006，32(8)：1197-1203.
［2］Lacape J M，Nguyen T B，Thibivillier，et al. A combined RFLP-SSR-AFLP map of tetr aploid cotton based on a Gossypium hirsutum×Gossypium barbadense backcross population［J］. Genome，2003，46：612-626.
［3］Nguyen T B，Giband M，Brottier P，et al. Wide coverage of the tetraploid cotton genome using newly developed microsatellite markers［J］. Theoretical and Applied Genetics，2004，109(1)：167-175.
［4］Song X L，Wang K，Guo W Z，et al. A comparison of genetic maps constructed from haploid and BC₁ mapping populations from the same crossing between Gossypium hirsutum and Gossypium barbadense［J］. Genome，2005，48：375-389.
［5］Wang B H，Guo W Z，Zhu X F，et al. QTL mapping of fiber quality in an elite hybrid derived-RIL population of upland cotton［J］. Euphytica，2006，152：367-378.
［6］Guo W Z，Cai C P，Wang C B，et al. A microsatellite-based，gene-rich linkage map reveals genome structure，function and evolution in gossypium［J］. Genetics，2007，176(1)：527-541.
［7］Zhang Z S，Hu M C，Zhang J，et al. Construction of a comprehensive PCR-based marker linkage map and QTL mapping for fiber quality traits in upland cotton(Gossypium hirsutum L.)［J］. Molecular Breeding，2009，24(1)：49-61.
［8］Yu Y，Yuan D J，Liang S G，et al. Genome structure of cotton revealed by a genome-wide SSR genetic map constructed from a BC₁ population between Gossypium hirsutum L. and Gossypium barbadense L.［J］. BMC Genomies，2011，12：15-23.
［9］Mei M，Syed N H，Gao W，et al. Genetic mapping and QTL analysis of fiber-related traits in cotton (Gossypium)［J］. Theoretical and Applied Genetics，2004，108(2)：280-291.
［10］Lacape J M，Nguyen T B，Courtois B，et al. QTL analysis of cotton fiber quality using multiple Gossypium hirsutum×Gossypium barbadense backcross generations［J］. Crop Science，2005，45：123-140.
［11］He D H，Lin Z X，Zhang X L，et al. QTL mapping for economic traits based on a dense genetic map of cotton with PCR-based markers using the interspecific cross of Gossypium hirsutum L.×Gossypium barbadense L.［J］. Euphytica，2007，153：181-197.
［12］Qin H D，Guo W Z，Zhang Y M，et al. QTL mapping of yield and fiber traits based on a four-way cross population in Gossypium hirsutum L.［J］. Theoretical and Applied Genetics，2008，117：883-894.
［13］杨鑫雷，王志伟，张桂寅，等. 棉花分子遗传图谱构建和纤维品质性状QTL分析［J］. 作物学报，2009，35(12)：2159-2166.
［14］Liu R Z，Wang B H，Guo W Z，et al. Quantitative trait loci mapping for yield and its components by using two immortalized populations of a heterotic hybrid in Gossypium hirsutum L.［J］. Mol Breeding，2012，29：297-311.
［15］Zhang Z S，Xiao Y H，Luo M，et al. Congstruction of a genetic linkage map and QTL analysis of fiber-related traits in upland cotton(Gossypium hirsutum L.)［J］. Euphytica，2005，144：91-99.
［16］Vuylsteke M，Peleman J D，van Eijk M J T.AFLP technology for DNA fingerprinting［J］. Nature Protocols，2007，2：1387-1398.
［17］Wang S C，Basten C J，Zeng Z B. Windows QTL cartographer 2.5 user manual［D］. Raleigh，USA：North Carolina State University，2005.
［18］Stuber C W，Edwardsm D，Wendel J F. Molecular marker facilitated investigations of quantitative trait loci in maize Ⅱ. Factors influencing yield and its component traits［J］. Crop Science，1987，27：639-648.

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