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A Review of Fertility Stability in Male Sterility for Soybean(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2015年04期
Page:
712-716
Research Field:
Publishing date:

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Title:
A Review of Fertility Stability in Male Sterility for Soybean
Author(s):
ZHANG Jing-yong12 ZHAO Li-mei2 SUN Huan2PENG Bao2LI Wen-bin1
1.Key Laboratory of Soybean Biology in Chinese Ministry of Education/Key Laboratory of Soybean Biology and Breeding / Genetics of Chinese Agriculture Ministry/Agronomy College of Northeast Agricultural University,Harbin 150030,China;?
2.Soybean Research Institute,Jilin Academy of Agricultural Sciences/National Engineering Research Center for Soybean,Changchun 130033, China
Keywords:
Soybean Nuclear male sterility Cytoplasmic male sterility Fertility stability
PACS:
-
DOI:
10.11861/j.issn.1000-9841.2015.04.0712
Abstract:
The fertility stability in male sterility for soybean is a key subject for its heterosis utilization.In this review, the influence factor of fertility stability in nuclear male sterility and cytoplasmic-nuclear male sterility for soybean are reviewed in details. In nuclear male sterility,male sterile lines controlled by a single recessive locus are stable,but individual sterile lines exception,such as ms8, ms9 are affected by the photoperiod and temperature.Partial male sterile lines or incomplete male sterile lines that are controlled by nuclear genes are instable, such as P2, MSP, Arkansas mutant and so on, when photoperiod and temperature change, fertility will also change.Photo-thermo sensitive male sterile lines of soybean 88-428BY-827, whoes fertility is controlled by day length,which is male sterile under day length from 13.5 to 14.0 h.d-1,and male fertile under day length from 14.5 to 15.2 h.d-1, For cytoplasmic male sterility, RN type cytoplasmic male sterile lines, found that most sterile lines are stable,individual fertility of male sterile line is affected by light and temperature.N8855 cytoplasmic male sterile line NJCMS1A’s fertility is stable under different environmental conditions. Fertility of M cytoplasmic male sterile line is stable under different light and temperature conditions. The related reports of the latter two types male sterile lines only were studied through individual male sterile lines. Further research has not been done in sterile lines that have same cytoplasmic but different nuclear.The importance of fertility stability and its prospect for soybean were also discussed.

References:

[1]Duvick D N. Inference of morphology and sterility on breeding methodology, in“plant breeding” [C]//Frey K J.A symposium held in Iowa State University,Iowa: Iowa State University, 1966:85-138

[2]Kidd H J. The inheritance of restoration of fertility in cytoplasmic male-sterile sorghum A preliminary report[J].Sorghum Newsletter,1961,4:47-49
[3]石明松,邓景扬.湖北光感核不育水稻的发现、鉴定及其利用途径[J].遗传学报,1986,13(2):107-112(Shi M S,Deng J Y.The discovery,determination and utilization of the hubei photosensitive genic male-sterile rice(Oryza sativa subsp-japonica)[J]Acta Genetica Sinica, 1986,13(2):107-112)
[4]林生,杨振玉,齐德权,等.BT秀岭A不育性的稳定性分析研究[J].杂交水稻,1987(3):9-12(Lin S,Yang Z Y,Qi D Q,et al. Study and analysis on fertility stability of BT Xiuling A.[J]Hybrid Rice, 1987,(3):9-12)
[5]Brim C A, Stuber C W. Application of genetic male stertity to recurrent selection schemes in soybean[J].Crop Science,1973,15:858-861
[6]余建章.大豆轮回选择[C]//全国大豆学术讨论会, 武汉,1986:1-13(Yu J Z.The recurrent selection on soybean[C]//National Soybean Academic Seminar,Wuhan,1986:1-13)?
[7]Crater T E Jr, Brar G, Burton J W, et al.Seed yield on field-grown ms2 ms2 male-sterile plants[J].Soybean Genetics Newsletter, 1986,13:159-163
[8]Rose J L, Buter D G, Ryley M J.Yield improvement in soybean using recurrent selection[J].Australian Journal of Agricultural Research,1992,43(1):135-144
[9]宋启建,吴天侠,盖钧镒.利用大豆隐性核不育基因进行群体改良的技术和方法的探讨[J]大豆科学,1997,16(1):80-84(Song Q J,Wu T X,Gai J Y. Application of soybean male sterility to population improvement[J].Soybean Science, 1997,16(1):80-84)
[10]司丽珍,王明军,邱家驯,等.大豆雄性核不育互交群体RS6Y在南京和Raleigh 的异地产量轮回选择响应[J]大豆科学,2002,21(2):32-35(Si L Z,Wang M J,Qiu J X,et al. Differential responses to yield recurrent selection under Nanjing and Raleigh conditions on ms1 intermating population RS6Y[J]Soybean Science, 2002,21(2):32-35)
[11]孙寰,赵丽梅,黄梅.大豆质核互作不育系研究[J]科学通报,1993,38(16):1535-1536.(Sun H,Zhao L M, Hunag M.Studies on cytoplasmic-nuclear male sterile soybean [J]Chinese Science Bulletin, 1993,38(16):1535-1536)
[12]孙寰,赵丽梅,黄梅.质核互作雄性不育大豆及生产大豆杂交种的方法:中国,ZL97112173-7[P]2000 (Sun H, Zhao L M, Huang M.Cytoplasmic-genetic male sterile soybean and method for producing hybrid soybean:China,ZL97112173-7[P]2000)
[13]李磊,胡亚敏,杨庆芳.对8909 和8912两个不育组合的观察与分析[C]//第五届全国大豆会论文集承德:河北农业出版,1993:23-24(Li L,Hu Y M,Yang Q F.The observation on 2 hybrid sterility combination of 8909 and 8912[C]//National Soybean conference V.Chengde: Hebei Agricultural Press, 1993:23-24)
[14]李磊,杨庆芳,胡亚敏,等.栽培大豆双亲基因互作型不育材料的发现及其遗传推断[J].安徽农业科学,1995,23(4):304-306(Li L,Yang Q F,Hu Y M,et al.Discovery and genetic analysis on Glycine max parents gene interaction sterile material[J].Journal of Anhui Agricultural Science,1995,23(4):304-306)
[15]赵丽梅,孙寰,黄梅.大豆细胞质雄性不育系ZA 的选育和初步研究[J].大豆科学,1998,17(3):268-270 (Zhao L M,Sun H, Huang M.The development and preliminary study cytoplasmic male sterile soybean line ZA[J]Soybean Science, 1998, 17(3):268-270)
[16]盖钧镒,丁德荣,崔章林,等.大豆质核互作雄性不育系NJCMS1A 的选育及其特性研究[J].中国农业科学,1999,32(5):23-27(Gai J Y,Ding D R,Cui Z L,et al.Development and performance of the cytoplasmic 2 nuclear male sterile line njcms1A of soybean[J].Scientia Agricultura Sinica, 1999,32(5):23-27)
[17]赵团结,盖钧镒.大豆不育细胞质资源的发掘与鉴定[J].作物学报,2006,32(11):1604-1610(Zhao T J,Gai J Y.Identification and evaluation of new sources of male-sterile cytoplasm in soybean[J]. Acta Agronomica Sinica,2006,32(11):1604-1610)
[18]Zhao T J,Gai J Y. Discovery of new male-sterile cytoplasm sources and development of a new cytoplasmic-nuclear male-sterile line NJCMS3A in soybean[J].Eupytica,2006,152:387-396
[19]丁德荣,盖钧镒,崔章林,等.大豆质核互作雄性不育系NJCMS1A及其保持系NJCMS1B的选育与验证[J].科学通报,1998,43(17):1901-1902 (Ding D R,Gai J Y,Cui Z L,et al. Development and verification of soybean cytoplasmic-nuclear male-sterile line NJCMS1A and NJCMS1B[J]. Chinese Science Bulletin,1998,43(17):1901-1902)
[20]许占友,李磊,常汝镇,等.大豆质核互作雄性不育系核不育基因的遗传分析[J]中国农业科学,1999, 32(增刊):1-8(Xu Z Y,Li L,Chang R Z,et al. Genetic analysis of nuclear male sterile genes of soybean cytoplasmic male sterile lines[J].Scientia Agricultura Sinica,1999,32 (S):1-8)
[21]张磊,戴欧和.大豆质核互作不育系W931A的选育研究[J].中国农业科学,1997,30(6):90-91(Zhang L,Dai O H.Selection and breeding of nucleo-cytoplasmic male sterile line W931A in soybean[J]Scientia Agricultura Sinica,1997,30(6):90-91)
[22]赵丽梅,孙寰,王曙明,等.大豆杂交种杂交豆1号选育报告[J]中国油料作物学报,2003,26(3):15-17(Zhao L M,Sun H,Wang S M,et al.Breeding of hybrid soybean hybsoy 1[J].Chinese Journal of Oil Crop Sciences, 2003,26(3):15-17)
[23]张磊,戴瓯和,黄志平,等.杂交大豆杂优豆1号选育[J].大豆通报,2007(2):14-16(Zhang L,Dai O H, Huang Z P,et al.Breeding of hybrid soybean Zayoudou No.1 [J].Soybean Bulletin,2007(2):14-16)
[24]彭宝,赵丽梅,王曙明,等.杂交豆2号选育及高产制种技术研究[J].吉林农业科学,2008,33(2):3-4,7(Peng B,Zhao L M,Wang S M,et al.Studies on breeding of ‘Hybsoy2’ soybean and high yield seed production technique[J].Journal of Jilin Agricultural Sciences, 2008,33(2):3- 4,7)?
[25]彭宝,赵丽梅,张伟龙,等.大豆杂交种杂交豆3号选育报告[J].吉林农业科学,2010,35(6):4-5(Peng B,Zhao L M, Zhang W L,et al.A breeding report of hybrid soybean‘Hybsoy 3’ [J]. Journal of Jilin Agricultural Sciences, 2010,35(6):4-5)
[26]彭宝,张连发,张伟龙,等.大豆杂交种杂交豆5号选育报告[J].吉林农业科学, 2011,36(6):7-8(Peng B,Zhang L F, Zhang W L,et al.A breeding report of hybrid soybean‘Hybsoy5’ [J]. Journal of Jilin Agricultural Sciences, 2011,36(6):7-8)
[27]黄志平,李杰坤,张磊,等.高蛋白杂交大豆“杂优豆2号”选育及栽培技术[J].安徽农业科学,2013,41(5):2029,2133(Huang Z P,Li J K,Zhang L,et al. Study on breeding and cultivation technology of hybrid soybean “Zayoudou No.2 ”with high-protein[J]. Journal of Anhui Agricultural Science, 2013,41(5):2029, 2133)
[28]赵丽梅,彭宝,张伟龙,等.杂交大豆制种技术体系的建立[J].大豆科学,2010,29(4):707-711(Zhao L M,Peng B,Zhang W L,et al. Establishment of technology system for hybrid soybean seed production[J]Soybean Science, 2010,29(4):707-711)?
[29]Brim C A,Young M F.Inheritance of male-sterile character in soybean[J]. Crop Science,1971, 11:564-567
[30]Palmer R G, Peeiffer T W, Buss G R,et al. Qualitative genetics in soybeans: Improvement,production,and uses[M]//Shible R M, Harper J E,Wilson R F, et al.Madison Wisconsin,USA,2004:171-173
[31]Frasch R M, Weig C, Perez P T,et al.Molecular mapping of 2 environmentally sensitive male-sterile mutants in soybean[J].Journey Heredity,2010,102:11-16
[32]Perez Sackett P T, Palmer R G.Effect of day and night temperature on the expression of male sterility of nuclear male-sterile (ms8ms8) soybean[J].Euphitica,2012,186:847-853
[33]Wiebbecke C E, Graham M A, Cianzio S R,et al.Day temperature influences the male-sterile loucus ms9 in soybean[J].Crop Science,2012,52:1503-1510
[34]Caviness C E,Fagala B L.Influence of temperature on a partially male-sterile soybean strain[J].Crop Science,1973,13:503-504
[35]Stelly D M, Palmer R G.A partially male-sterile mutant line of soybeans, Glycine max(L) Merr: Characterization of the msp phenotype variation[J]Euphytica,1980,29:539-546.
[36]Carlson D R, Williams C B. Effect of temperature on the expression of male sterility in partially male-sterile soybean[J].Crop Science,1985,25:646-648
[37]Fehr W R, Caviness C E. Stages of soybean development Spec Rep 1977, 80 Iowa Agric Home EconExp Stn,Iowa State Univ,Ames,IA
[38]卫保国.大豆光温敏感型雄性不育系发现的初报[J].作物品种资源,1991(3):12(Wei B G.A preliminary report on photothermo sensitive male-sterility soybean[J].Chinese Seeds,1991(3):12)
[39]卫保国,孙贵臣.大豆光敏雄性不育系的发现鉴定[M].北京:中国农业科技出版社,1995:185-189 (Wei B G, Sun G C. Discovery and identification of photoperiod-sensitive male-sterile soybean[M].Beijing: China Agricultural Science and Technology Press,1995:185-189)
[40]卫保国,王兴玲,畅建武,等.光(温)敏雄性不育大豆(88-428BY)开花期光敏特性初探[J].山西农业大学学报,1996,16(增刊):69-71 (Wei B G,Wang X L,Chang J W,et al. Photoperiod sensitive characteristics of photo-thermo sensitive male-sterile soybean 88428 BY in florescence[J].Journal of Shanxi Agricultural University, 1996,16(S):69-71)
[41]Davis W H.Route to hybrid soybean production US, 4545146[P].1985
[42]Smith M B, Horner H T,Palmer R G.Temperature and photoperiod effects on sterility in a cytoplasmic male-sterile soybean[J]. Crop Science,2001,41:702-704
[43]孙寰,赵丽梅,王曙明,等.大豆杂种优势研究进展[J].中国油料作物学报,2003,25(1):92-96,100. (Sun H, Zhao L M,Wang S M,et al.Review of soybean heterosis utilization[J]Chinese Journal of Oil Crop Sciences,2003,25(1):92-96,100)?
[44]张井勇,赵丽梅,彭宝,等.土壤干旱对大豆杂交种育性稳定性影响的初步研究[C]//第九届全国大豆学术讨论会,武汉,2013 (Zhang J Y, Zhao L M, Peng B, et al.Preliminary studies on fertility stability of three-line hybrid soybean under soil drought[C]//National Soybean Academic Seminar IX, Wuhan,2013:8)
[45]Wang S M,Wang Y,Zhao L M,et al.Analysis of fertility stability of F1 in hybrid soybean[R].WSRC XI,oral(92),durban,South Africa,2013,2:17-22
[46]张井勇,孙寰,赵丽梅,等.大豆RN不育胞质不育与恢复类型的研究[J]大豆科学,2010,29(4):559-564(Zhang J Y,Sun H,Zhao L M,et al.Classification of male-sterile lines with RN sterile cytoplasm and their restorers[J].Soybean Science, 2010,29(4):559-564)
[47]赵丽梅.RN型大豆细胞质雄性不育基础研究[R].长春:博士后研究报告,2012:25-31(Zhao L M.Basic research of RN cytoplasmic male sterility in soybean[R]. Changchun: Postdoctoral Research Report,2012:25-31)
[48]张磊,戴欧和,黄志平,等.大豆质核互作M型雄性不育系的选育及其育性表现[J].中国农业科学,1999,32(4):34-38(Zhang L,Dai O H,Huang Z P,et al.Selection of soybean male sterile line of nucleo-cytoplasmic interaction and its fertility[J].Scientia Agricultura Sinica,1999,32(4):34-38)
[49]邓国樱,邓晓湘,唐俐,等水稻光温敏核不育系育性波动的解决途径和方法[J].杂交水稻,2000,15(4):4-5(Deng G Y, Deng X X,Tang L,et al.Approaches and methods for overcoming male sterility fluctuation of PTGMS lines in rice[J]Hybrid Rice, 2000,15(4):4-5)

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