OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

棉花学报 2013

陆地棉吐絮铃数及吐絮率的QTL定位

DOI: 1002-7807（2013）06-0471-07, PP. 471-477

李俊文,贾　菲,孙福鼎,刘爱英,石玉真,龚举武,商海红,王涛,巩万奎,贾新合,张建宏,袁有禄,华金平

Keywords: 陆地棉,永久F2群体,重组近交系,吐絮铃数,吐絮率,QTL

Full-Text Cite this paper Add to My Lib

Abstract:

采用复合区间作图法，对陆地棉sGK9708×0-153组合的重组近交系(RI)及永久F2群体在曲周（2009年）、安阳（2009，2010年）3个环境条件下的吐絮铃数和吐絮率进行QTL检测，共获得18个QTLs。其中，7个与吐絮铃数相关，加性效应在－0.46～0.33之间，可解释的表型变异为5.86%～11.28%；11个与吐絮铃率相关，加性效应在－3.64%～3.20%之间，可解释的表型变异4.68%～9.84%。这些QTLs主要分布在25号（吐絮铃数/吐絮率3个/6个，下同）、16号（2个/2个）、18号（1个/2个）染色体和LG49（1个/1个）上。这18个QTLs中，qPOB-16-2在RI群体中的3个环境下被稳定检测到，qCOB-16-1、qPOB-25-3和qPOB-25-4在RI中的两个环境下被稳定检测到。这些QTLs可以应用于吐絮铃数和吐絮率的分子标记辅助选择。

References

[1]	赵伦一，陈舜文，徐世安. 陆地棉早熟性的指示性状的遗传力估计[J].遗传学报, 1974, 1(1): 107-116.
[2]	ZHAO Lun-yi, Chen Shun-wen, Xu Shi-an. An estimation of heritabilityof the indicative characters ofearlinessin upland cotton[J].Acta Genetica Sinica, 1974, 1(1): 107-116.
[3]	喻树迅, 黄祯茂. 短季棉品种早熟性构成因素的遗传分析[J].中国农业科学,1990, 23(6): 48-54.
[4]	YU Shu-xun, Huang Zhen-mao. Inheritance analysis on earliness components of short season varieties in G. hirsutum[J].Scientia Agricultura Sinica, 1990, 23(6): 48-54.
[5]	蔡应繁, 谭永久, 何洪华. 短季棉早熟性产量和纤维品质的主成份和典型相关分析[J].西南农业大学学报, 1996, 18(4): 346-349.
[6]	CAI Ying-fan, Tan Yong-jiu, He Hong-hua. Princial component correlation analysis and canonical analysis of earliness, yield-cotribution characters and fibre quality of short-season cotton[J].Journal of Southwest Agricultural University, 1996, 18(4): 346-349.
[7]	GODOY A S, Palomo G A. Genetic analysis of earliness in upland cotton Gossypium hirsutum L. I. Morphological and phenological variables[J]. Euphytica, 1999（105）: 155-160.
[8]	宋美珍, 喻树迅, 范术丽, 等. 短季棉主要农艺性状的遗传分析 [J].棉花学报, 2005, 17(2): 94-98.
[9]	SONG Mei-zhen, Yu Shu-xun, Fan Shu-li, et atl. Genetic analysis of main agronomic traits in short season upland cotton(G. hirsutum L.)[J].Cotton Science, 2005, 17( 2) : 94-98.
[10]	范术丽, 喻树迅, 原日红, 等. 短季棉早熟性的遗传效应及其与环境互作研究[J].西北植物学报, 2006, 26(11): 2270-2275.
[11]	FAN Shu-li, Yu Shu-xun, Yuan Ri-hong, et atl. Genetic effects and environmental interactions of early maturity in short-season cotton[J].Acta Bot Boreal-Occident Sin， 2006, 26(11): 2270- 2275.
[12]	范术丽, 喻树迅, 宋美珍, 等. 短季棉早熟性的分子标记及QTL定位[J].棉花学报,2006, 18(3): 135-139.
[13]	FAN Shu-li, Yu Shu-xun, Song Mei-zhen, et al. Construction of molecular linkage map and QTL mapping for earliness in short-season cotton[J].Cotton Science, 2006, 18(3): 135-139.
[14]	魏新琦, 张　建, 刘大军, 等. 陆地棉开花期QTL定位[J].西南大学学报:自然科学版, 2008, 30(12): 61-64.
[15]	WEI Xin-qi, Zhang Jian, Liu Da-jun, et al. Mapping QTL affecting flowering stage in upland cotton (Gossypium hirsutum L.)[J].Journal of Southwest University：Natural Science Edition, 2008, 30(12): 61-64.
[16]	LI Cheng-qi, Wang Chang-biao, Dong Na, et al. QTL detection for node of first fruiting branch and its height in upland cotton (Gossypium hirsutum L.)[J].Euphytica, 2012, 188(3): 441-451.
[17]	GUO Y, McCarty J C, Jenkins J N, et al. QTLs for node of first fruiting branch in a cross of an upland cotton, Gossypium hirsutum L., cultivar with primitive accession Texas 701[J].Euphytica, 2008, 163(1): 113-122.
[18]	董　娜, 李成奇, 王清连, 等. 不同生态环境下短季棉早熟及相关性状的混合遗传[J].棉花学报, 2010, 22(4): 304-311.
[19]	DONG Na, Li Cheng-qi, Wang Qing-lian, et al. Mixed inheritance of earliness and its related traits of short-season cotton under different ecological environments[J]. Cotton Science, 2010, 22(4): 304-311.
[20]	努斯热提·吾斯曼, 喻树迅, 范术丽, 等. 机采棉主要农艺性状相关性分析和QTL定位[J].新疆农业科学, 2012, 49(5): 791-795.
[21]	NUSURAT Osman, Yu Shu-xun, Fan Shu-li, et al. Correlation of agronomic characters and QTL mapping in mechanical harvest cotton ( Gossypum hirsutum L.)[J]. Xinjiang Agricultural Sciences, 2012, 49(5): 791-795.
[22]	[1３] 张西英, 李金荣, 朱永军, 等. 海岛棉(Gossypium barbadense L.) 产量和早熟性状的QTL定位[J].植物遗传资源学报, 2012, 13(4): 614-621.
[23]	ZHANG Xi-ying, Li Jing-rong, Zhu Yong-jun, et al. QTL mapping of yield and earliness-related traits in sea-island cotton (Gossypium barbadense L.)[J]. Journal of Plant Genetic Resources, 2012, 13(4) : 614-621.
[24]	[1４] JIANG Chun-xiao, Wright R J, El-Zik K M, et al. Polyploid formation created unique avenues for response to selection in Gossypium(cotton)[J].Proc Natl Acad Sci USA, 1998, 95(8): 4419-4424.
[25]	[1５] ZHANG Tian-zhen, Yuan You-lu, Yu John, et al. Molecular tagging of a major QTL for fiber strength in upland cotton and its marker-assisted selection[J].Theor Appl Genet, 2003, 106(2): 262-268.
[26]	SUN Fu-ding, Zhang Jian-hong, Wang Shu-fang, et al. QTL mapping for fiber quality traits across multiple generations and environments in upland cotton[J]. Mol Breeding, 2012, 30(1): 569-582.
[27]	WANG Cong-li, Ulloa M, Mullens T R, et al. QTL Analysis for transgressive resistance to root-knot nematode in interspecific cotton (Gossypium spp.) progeny derived from susceptible parents[J].PloS One, 2012, 7(4): e34874.
[28]	HE Dao-hua, Lin Zhong-xu, Zhang Xian-long, 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 × Gossypium barbadense[J].Euphytica, 2007, 153(1-2): 181-197.
[29]	MEI M, Syed N H, Gao W, et al. Genetic mapping and QTL analysis of fiber-related traits in cotton(Gossypium)[J]. Theor Appl Genet, 2004, 108(2): 280-291.
[30]	SHEN Xin-lian, Zhang Tian-zhen, Guo Wang-zhen, et al. Mapping fiber and yield QTLs with main, epistatic, and QTL × environment interaction effects in recombinant inbred lines of upland cotton [J]. Crop Science, 2006, 46(1): 61.
[31]	HUA Jin-ping, Xing Yong-zhong, Xu Cai-guo, et al. Genetic dissection of an elite rice hybrid revealed that heterozygotes are not always advantageous for performance[J]. Genetics, 2002, 162(4): 1885-1895.
[32]	HUA Jin-ping, Xing Yong-zhong, Wu Wei-ren, et al. Single-locus heterotic effects and dominance by dominance interactions can adequately explain the genetic basis of heterosis in an elite rice hybrid[J].P Natl Acad Sci USA, 2003, 100(5): 2574-2579.
[33]	李正理. 棉花形态学[M]. 北京：科学出版社, 1979.
[34]	LI Zheng-li. Cotton morphology[M]. Beijing: Science Press, 1979.
[35]	ZAR J H. Biostatistical analysis[M]. 5th ed. New Jersey: Pearson Education Inc, 2010.
[36]	贾　菲. 陆地棉重组自交系产量与纤维品质性状的QTL定位[D].长沙: 湖南农业大学, 2011.
[37]	JIA Fei. Identification of QTL for yield and fiber quality traits in upland cotton(Gossypium hirsutum L.) RIL population[D].Changsha: Hunan Agricultural University, 2011.
[38]	WANG S C, Basten C J, Zeng Z B. Windows QTL Cartographer V2.5[CP/OL] 2012-08-01[2012-10-02] http://statgen.ncsu.edu/qtlcart/WQTLCart.htm.
[39]	MCCOUCH S R, Cho Y G, Yano M, et al. Report on QTL nomenclature [J].Rice Genet Newslett, 1997（14）: 11-13.
[40]	VOORRIPS R E. MapChart 2.2: software for the graphical presentation of linkage maps and QTLs[M]. Wageningen: Plant Research International, 2006.
[41]	LIU Ren-zhong, Wang Bao-hua, Guo Wang-zhen, 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(2): 297-311.
[42]	喻树迅. 中国短季棉育种学[M]. 北京:科学出版社, 2007.
[43]	YU Shu-xun. Short season cotton breeding in China[M]. Beijing:Science Press, 2007.
[44]	BLENDA A, Fang D D, Rami J F, et al. A high density consensus genetic map of tetraploid cotton that integrates multiple component maps through molecular marker redundancy check[J].PLoS ONE, 2012, 7(9):e45739.
[45]	YU J Z, Kohel R J, Fang D D, et al. A high-density simple sequence repeat and single nucleotide polymorphism genetic map of the tetraploid cotton genome[J]. G3(Bethesda), 2012, 2(1):43-58.
[46]	WANG Kun-bo, Wang Zhi-wen, Li Fu-guang, et al. The draft genome of a diploid cotton Gossypium raimondi [J].Nature Genetics, 2012, 44(10): 1098-1103.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133