利用三个重叠的重组自交系群体解析陆地棉第8染色体上纤维强度的基因簇数量性状位点。

Using three overlapped RILs to dissect genetically clustered QTL for fiber strength on Chro.D8 in Upland cotton.

作者信息

Chen Hong, Qian Neng, Guo Wangzhen, Song Qingping, Li Baocheng, Deng Fujun, Dong Cunguang, Zhang Tianzhen

机构信息

National Key Laboratory of Crop Genetics and Germplasm Enhancement, Nanjing Agricultural University, 210095, Nanjing, Jiangsu Province, China.

出版信息

Theor Appl Genet. 2009 Aug;119(4):605-12. doi: 10.1007/s00122-009-1070-x. Epub 2009 Jun 3.

DOI:10.1007/s00122-009-1070-x

PMID:19495722

Abstract

Fiber strength is an important trait among cotton fiber qualities due to ongoing changes in spinning technology. Major quantitative trait loci (QTL) for fiber quality enable molecular marker-assisted selection (MAS) to effectively improve fiber quality of cotton cultivars. We previously identified a major QTL for fiber strength derived from 7235 in Upland cotton. In the present study, in order to fine-map fiber strength QTL, we chose three recombinant inbred lines (RIL), 7TR-133, 7TR-132, and 7TR-214, developed from a cross between 7235 and TM-1 for backcrossing to TM-1 to develop three large mapping populations. Phenotypic data for fiber strength traits were collected in Nanjing (JES/NAU) and Xinjiang (BES/XJ) in 2006 and 2007. Three simple sequence repeat (SSR) genetic linkage maps on Chro.24(D8) were constructed using these three backcrossed populations. The SSR genetic maps were constructed using 907 individuals in (7TR-133 x TM-1)F(2) (Pop A), 670 in (7TR-132 x TM-1)F(2) (Pop B), and 940 in (7TR-214 x TM-1)F(2) (Pop C). The average distance between SSR loci was 0.62, 1.7, and 0.56 cM for the three maps. MapQTL 5 software detected five-clustered QTL (2.5 < LOD < 29.8) on Chro.D8 for fiber strength following analysis of three RIL backcrossed F(2)/F(2:3) progenies at JES/NAU and BES/XJ over 2 years. Five QTL for fiber strength exhibited a total phenotypic variance (PV) of 28.8-59.6%.

摘要

由于纺纱技术不断变化，纤维强度是棉花纤维品质中的一个重要性状。纤维品质的主要数量性状位点（QTL）使分子标记辅助选择（MAS）能够有效提高棉花品种的纤维品质。我们之前在陆地棉中鉴定出一个源自7235的纤维强度主效QTL。在本研究中，为了精细定位纤维强度QTL，我们选择了三个重组自交系（RIL），即7TR - 133、7TR - 132和7TR - 214，它们由7235与TM - 1杂交产生，用于与TM - 1回交以构建三个大型定位群体。2006年和2007年在南京（JES/NAU）和新疆（BES/XJ）收集了纤维强度性状的表型数据。利用这三个回交群体构建了位于第24号染色体（D8）上的三个简单序列重复（SSR）遗传连锁图谱。SSR遗传图谱分别利用（7TR - 133×TM - 1）F₂（群体A）中的907个个体、（7TR - 132×TM - 1）F₂（群体B）中的670个个体以及（7TR - 214×TM - 1）F₂（群体C）中的940个个体构建。这三个图谱中SSR位点之间的平均距离分别为0.62、1.7和0.56 cM。MapQTL 5软件在对三个RIL回交F₂/F₂:₃后代在JES/NAU和BES/XJ连续两年的数据进行分析后，在第D8染色体上检测到五个成簇的纤维强度QTL（2.5 < LOD < 29.8）。五个纤维强度QTL的总表型变异（PV）为28.8 - 59.6%。

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利用三个重叠的重组自交系群体解析陆地棉第8染色体上纤维强度的基因簇数量性状位点。

Using three overlapped RILs to dissect genetically clustered QTL for fiber strength on Chro.D8 in Upland cotton.

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