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Inheritance and Molecular Marker of Chilling Tolerance of Soybean in EarlyStage(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2008年06期
Page:
905-910
Research Field:
Publishing date:

Info

Title:
Inheritance and Molecular Marker of Chilling Tolerance of Soybean in EarlyStage
Author(s):
HU Guo-yuZHAO Jin-mingZHOU BinZUO Qiao-meiGAI Jun-yiYU De-yueXING Han
Soybean Research Institute,National Center for Soybean Improvement,Ministry of Agriculture,National Key Laboratory of Crop Genetics and Germplasm Enhancement,Nanjng Agricultural University,Nanjing 210095,Jiangsu,China
Keywords:
SoybeanEarly stageChilling toleranceInheritanceMolecular marker
PACS:
S565.1
DOI:
10.11861/j.issn.1000-9841.2008.06.0905
Abstract:
Soybean is an important source of human protein and oil,and it is susceptible to temperature and light.Low temperature susceptibility affects soybean yield not only in high latitude area but also in low.Inheritance of soybean chilling tolerance in early stage was analyzed jointly in P1and P2parents,F1,F2and F2:3generations derived from the cross Zhou 9311-3×Xu 9125 by using the joint segregation analysis of the mixed major gene and polygene inheritance model of quantitative traits.And then through t-test analysis and bulked segregate analysis(BSA),SSR markers which linked lightly with chilling tolerance were screened.The results indicated that the inheritance of chilling tolerance in the population was accorded with the D-0 model,namely the inheritance of the chilling tolerance in the population was controlled by one major gene with additive-dominance effect plus polygene with additive-dominance-epistatic effect,and the major gene showed overdominance effect.Two molecular markers satt562 and satt157were found linked with the chilling tolerance genes in the F2 population of Zhou 9311-3×Xu 9125.The individual effect of each marker was reported as R-2value,and explained 13.9% and 3.4% respectively.And the markers of satt562 and satt157 situated on I and D1b linkage groups,respectively.The satt562 with larger phenotypic effect could be regard as major gene locus,and satt157 with relative smaller effects could be regarded as polygene locus.

References:

[1]张德荣,张学君,孟祥勋.大豆低温冷害敏感时期试验研究报告[J].吉林农业科学,1987(1):37-38.(Zhang D R,Zhang X J,Meng X X.Study report on chilling sensitive stage of soybean[J].Jilin Agricultural Science,1987(1):37-38.)

[2]潘铁夫.东北地区农作物冷害发生规律的研究[J].吉林农业科学,1985(4):9-16.(Pan T F.Law of chilling stress in North-east area[J].Jilin Agricultural Science,1985(4):9-16.)
[3]王金陵.中国东北大豆[M].哈尔滨:黑龙江科学技术出版社,1999:11-20.(Wang J L.Soybean of North-east area in China [M].Harbin:Heilongjiang Science & Tech Press,1999:11-20.)
[4]杨加银.菜用大豆育种目标与策略的商榷[J].种子,2004,23(12):46-47.(Yang J Y.Discussion on objective and strategy of vegetable soybean breeding[J].Seed,2004,23(12):46-47.)
[5]郭泰,齐宁,刘忠堂,等.大豆品种资源及F 2和F3种子萌发期耐冷性鉴定[J].黑龙江农业科学,1995,1:6-8.(Guo T,Qi N,Liu Z T,et al.The identification on tolerance to cold in the germination of soybean gerrmplasm and progenies in F2and F3[J].Heilongjiang Agricultural Sciences,1995,1:6-8)
[6]张思河,王萍,马淑英,等.三个熟期类型大豆种子萌发进程中耐冷性的比较[J].大豆科学,2000,19(3):218-222.(Zhang S H,Wang P,Ma S Y,et al.Comparative study on the cold tolerance of three maturity type soybean seeds during the course of germination[J].Soybean Science,2000,19(3):218-222.)
[7]郝晶,张立军,谢甫绨.低温对大豆不同耐冷性中萌发期保护酶活性的影响[J].大豆科学,2007,26(2):171-175.(Hao J,Zhang L J,Xie F D.Effects of the low temperature on defense enzyme activities of different chilling tolerant soybean cultivars during the germination[J].Soybean Science,2007,26(2):171-175.)
[8]马淑英,尹田夫,宋海星,等.低温对不同耐冷大豆萌发种子游离脯氨酸变化的影响[J].吉林农业科学,1998,4:88-90.(Ma S Y,Yin T F,Song H X,et al.The effect of low temperature on the change of the free proline content in soybean seeds[J].Jilin Agricultural Science,1998,4:88-90.)
[9] Ga′bor Kocsy,Bala′zs To′th,Tama′s Berzy,et al.Glutathione reductase activity and chilling tolerance are induced by a hydroxylamine derivative BRX-156 in maize and soybean[J].Plant Science,2001,160:943-950.
[10]Van Heerden P D R,VIljoen M M,De Villiers M F,et al.Limitation of photosynthetic carbon metabolism by dark chilling in temperate and tropical soybean genotypes[J].Plant Physiology and Biochemistry,2004,42:117-124.
[11]任丽丽,高辉远.低温弱光胁迫对野生大豆和大豆栽培种光系统功能的影响[J].植物生理与分子生物学学报,2007,33(4):333-340.(Ren L L,Gao H Y.Effects of chilling stress under weak light on functions of photosystems in leaves of wild soybean and cultivator soybean[J].Journal of Plant Physiology and Molecular Biology,2007,33(4):333-340.)
[12]盖钧镒,张元明,王健康.植物数量遗传体系[M].北京:科学出版社,2003:224-265.(Gai J Y,Zhang Y M,Wang J K.Genetic system of quantitative traits in plants [M].Beijing:Sience Press,2003:224-265.)
[13]翟虎渠.应用数量遗传学[M].北京:中国农业出版社,2001.(Zhai H Q.Applied genetics of quantitative traits [M].Beijing:China Agric Press,2001.)
[14]徐吉臣,邹亮星.利用相关性分析鉴定与水稻根部性状表达相关的分子标记[J].遗传学报,2002,29(3):245-249.(Xu J C,Zhou L X.Indentification of molecular markers associated with rice root traits by correlation coefficient analysis[J].Acta Genetica Sinica,2002,29(3):245-249.)

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Last Update: 2014-10-04