印水型杂交粳稻恢复系分子选择及生态适应性研究
|
摘要
水稻杂种优势的利用是保证粮食安全的重要措施。印水型杂交粳稻由具籼质粳核的印水型不育系与粳稻恢复系配组而成。印水型杂交粳稻的研究有利于丰富杂交粳稻的理论,促进杂交粳稻的新发展。
本研究结合分子技术和田间方法,用程氏指数法和mtDNA籼粳特异PCR引物SSV-39/178和SSV-500/6分析了印水型杂交粳稻的不育系、保持系和恢复系籼粳程度及细胞质的籼粳属性。分析了印水型不育系的花粉败育特点和开花习性。在育性恢复的遗传分析和恢复基因定位的基础上,进行印水型粳稻恢复系的分子辅助选择研究。同时,将印水型杂交粳稻组合在不同生态区种植,分析其生态适应性。主要研究结果如下:
(1)印水型粳稻不育系花粉败育为典败型,与提供印水型细胞质的籼稻不育系相同。
(2)印水型不育系和多数恢复系拥有籼稻细胞质,但是印水型粳稻保持系和少数恢复系拥有粳稻细胞质。
(3)印水型不育系、保持系和部分恢复系为粳稻或偏粳稻,只有少数恢复系偏籼。
(4)粳稻品种转育成的印水型不育系的花期较保持系晚2.5天,花时高峰晚1.2个小时。认为这种差异是源于细胞质的影响。认为有必要选育新保持系,使印水型粳稻不育系的花时高峰提前,为印水型杂交粳稻高产制繁种提供基础。
(5)本研究首次明确印水型粳稻不育系育性恢复受两对主效基因加微效基因控制,两对主效基因遗传率h2
mg(%)为89.52%,微效基因遗传率h2
pg(%)为8.78%。主基因+微效基因决定了花粉育性表型变异的98.3%,另外的1.7%是由环境因素决定的。
(6)本研究首次对印水型杂交粳稻恢复基因进行了分子定位。两对主基因分别位于第一和第十染色体上,Rf-y1(t)位于第一染色体上,与分子标记RM10353的遗传距离为3.0cM,Rf-y10(t)位于第十染色体上,与分子标记RM6100的遗传距离为1.2cM。
(7)本研究首次用分子标记实践了印水型粳稻恢复系的分子标记辅助选择,成功选育出印水型粳稻恢复系R16、R382、R384、R386。
(8)用一般配合力较高的印水型粳稻不育系辽65A与恢复系R382组配的杂交粳稻组合育性稳定较好,用特殊配合力较高的辽10A与R384组配的印水型杂交粳稻生态适应性较好。
Rice heterosis utilization is an important technological measure for food security in China.Japonica hybrid rice based on cytoplasmic male sterility of Yinshui type (CMS-YS) is made byjaponica restorer lines with CMS-YS lines. The study on japonica hybrid rice of CMS-YS will enrichthe theory and also promote the development of japonica hybrid rice.
This study analyzed indica-japonica index based on Cheng’s Index and indica-japonica property incytoplasm with mtDNA specific primer of CMS lines, maintainers, and restorers of JHR-YS based onmolecular techniques combined with experimental method in field, analyzed pollen abortivecharacteristics of CMS-YS lines. Also studied marker-assisted selection of the restorers used forJHR-YS based on molecular mapping of restoring genes in CMS-YS system, and ecologicaladaptability of JHR-YS by growing it in different ecological regions. The main results are followings.
(1) CMS-YS japonica lines was typical abortive type, same as CMS-YS indica lines.
(2) Revealed that CMS-YS lines and most of the restorer lines have the indica cytoplasm byanalyzing but YS-type japonica maintainer lines and a few restorer lines have the japonica cytoplasm.
(3) CMS-YS lines, maintainers and part of restorer lines are japonica or partial japonica, only afew restorer lines are partial indica.
(4) The flowering date of japonica CMS-YS lines was2.5days late than that of their maintainers,and flowering peak time was also1.2hours late. It was considered that the differences was resulted fromfrom YS cytoplasm, and breeding new maintainers is necessary to make it early, as a basis for highyielding seed production of japonica hybrid rice based on CMS-YS lines.
(5) It is the first time to demonstrate that fertility restoration of japonica CMS-YS lines wascontrolled by two major genes and other minor genes, heritability h2
mg(%) of the two major genes andthe minor genes was89.52%, was8.78%, respectively. Pollen fertility variation was98.3%controlledby major and minor genes, the rest1.7%is decided by the environment.
(6) The two major genes, Rf-y1(t) and Rf-y10(t), were linked to RM10353with3.0cM and RM6100with1.2cM distance on chromosome1and chromosome10, respectively.
(7) Rstorers R16、R382、R384、R386for CMS-YS japonica hybrid rice have been developed withMarker-assisted Selection.
(8) Hybrid japonica rice combination between CMS-YS line, Liao65A, and restorer, R382that hadhigh general combination ability, had better fertility stability. Hybrid japonica rice combination betweenCMS-YS line Liao10A and R384that had high specific combination ability, had better ecologicaladaptability.
本研究结合分子技术和田间方法,用程氏指数法和mtDNA籼粳特异PCR引物SSV-39/178和SSV-500/6分析了印水型杂交粳稻的不育系、保持系和恢复系籼粳程度及细胞质的籼粳属性。分析了印水型不育系的花粉败育特点和开花习性。在育性恢复的遗传分析和恢复基因定位的基础上,进行印水型粳稻恢复系的分子辅助选择研究。同时,将印水型杂交粳稻组合在不同生态区种植,分析其生态适应性。主要研究结果如下:
(1)印水型粳稻不育系花粉败育为典败型,与提供印水型细胞质的籼稻不育系相同。
(2)印水型不育系和多数恢复系拥有籼稻细胞质,但是印水型粳稻保持系和少数恢复系拥有粳稻细胞质。
(3)印水型不育系、保持系和部分恢复系为粳稻或偏粳稻,只有少数恢复系偏籼。
(4)粳稻品种转育成的印水型不育系的花期较保持系晚2.5天,花时高峰晚1.2个小时。认为这种差异是源于细胞质的影响。认为有必要选育新保持系,使印水型粳稻不育系的花时高峰提前,为印水型杂交粳稻高产制繁种提供基础。
(5)本研究首次明确印水型粳稻不育系育性恢复受两对主效基因加微效基因控制,两对主效基因遗传率h2
mg(%)为89.52%,微效基因遗传率h2
pg(%)为8.78%。主基因+微效基因决定了花粉育性表型变异的98.3%,另外的1.7%是由环境因素决定的。
(6)本研究首次对印水型杂交粳稻恢复基因进行了分子定位。两对主基因分别位于第一和第十染色体上,Rf-y1(t)位于第一染色体上,与分子标记RM10353的遗传距离为3.0cM,Rf-y10(t)位于第十染色体上,与分子标记RM6100的遗传距离为1.2cM。
(7)本研究首次用分子标记实践了印水型粳稻恢复系的分子标记辅助选择,成功选育出印水型粳稻恢复系R16、R382、R384、R386。
(8)用一般配合力较高的印水型粳稻不育系辽65A与恢复系R382组配的杂交粳稻组合育性稳定较好,用特殊配合力较高的辽10A与R384组配的印水型杂交粳稻生态适应性较好。
Rice heterosis utilization is an important technological measure for food security in China.Japonica hybrid rice based on cytoplasmic male sterility of Yinshui type (CMS-YS) is made byjaponica restorer lines with CMS-YS lines. The study on japonica hybrid rice of CMS-YS will enrichthe theory and also promote the development of japonica hybrid rice.
This study analyzed indica-japonica index based on Cheng’s Index and indica-japonica property incytoplasm with mtDNA specific primer of CMS lines, maintainers, and restorers of JHR-YS based onmolecular techniques combined with experimental method in field, analyzed pollen abortivecharacteristics of CMS-YS lines. Also studied marker-assisted selection of the restorers used forJHR-YS based on molecular mapping of restoring genes in CMS-YS system, and ecologicaladaptability of JHR-YS by growing it in different ecological regions. The main results are followings.
(1) CMS-YS japonica lines was typical abortive type, same as CMS-YS indica lines.
(2) Revealed that CMS-YS lines and most of the restorer lines have the indica cytoplasm byanalyzing but YS-type japonica maintainer lines and a few restorer lines have the japonica cytoplasm.
(3) CMS-YS lines, maintainers and part of restorer lines are japonica or partial japonica, only afew restorer lines are partial indica.
(4) The flowering date of japonica CMS-YS lines was2.5days late than that of their maintainers,and flowering peak time was also1.2hours late. It was considered that the differences was resulted fromfrom YS cytoplasm, and breeding new maintainers is necessary to make it early, as a basis for highyielding seed production of japonica hybrid rice based on CMS-YS lines.
(5) It is the first time to demonstrate that fertility restoration of japonica CMS-YS lines wascontrolled by two major genes and other minor genes, heritability h2
mg(%) of the two major genes andthe minor genes was89.52%, was8.78%, respectively. Pollen fertility variation was98.3%controlledby major and minor genes, the rest1.7%is decided by the environment.
(6) The two major genes, Rf-y1(t) and Rf-y10(t), were linked to RM10353with3.0cM and RM6100with1.2cM distance on chromosome1and chromosome10, respectively.
(7) Rstorers R16、R382、R384、R386for CMS-YS japonica hybrid rice have been developed withMarker-assisted Selection.
(8) Hybrid japonica rice combination between CMS-YS line, Liao65A, and restorer, R382that hadhigh general combination ability, had better fertility stability. Hybrid japonica rice combination betweenCMS-YS line Liao10A and R384that had high specific combination ability, had better ecologicaladaptability.
引文
[1]曹立勇,占小登,庄杰云,等.利用分子标记辅助育种技术育成优质高产抗病杂交稻国稻1号[J].杂交水稻,2005,20(3):16-18.
[2]曹立勇,赵建根,占小登,等.水稻耐热性的QTL定位及耐热性与光合速率的相关性[J].中国水稻科学,2003,17(3):223-227.
[3]陈建民,付志英,权宝权,等.分子标记辅助培育双抗稻瘟病和白叶枯病杂交稻恢复系[J].分子植物育种,2009,7(3):465-470.
[4]陈立云,熊炜,阳菊华,等.亚种间杂交稻结实率稳定性的研究[J].杂交水稻,2003,18(3):49-52.
[5]陈萍.不同不育细胞质对杂种优势效应研究[J].杂交水稻,1992,(3):42-44.
[6]陈升位,杨德,张琼仙,等.滇1型杂交粳稻两个高产组合保持系、恢复系的RAPD标记分析[J].云南农业大学学报,2001,16(3):191-194.
[7]陈亚君,丁芬,王先俱,等.印水型粳稻不育系的选育与研究(I)[J].北方水稻,2008,38(1):15-19.
[8]陈亚君,丁芬,王先俱等.印水型粳稻不育系的选育与研究(Ⅱ)[J].北方水稻,2009,39(1):6-9.
[9]程保山,洪德林,万志兵,等.与粳稻BT型细胞质育性恢复基因连锁的实用SSR标记的筛选[J].南京农业大学学报.2011,34(1):1-7.
[10]程侃声著.亚洲稻籼粳亚种的鉴别[M].昆明:云南科技出版社,1993,1-23.
[11]杜雪树,夏明元,李进波,等.分子标记辅助选择选育香稻恢复系[J].华中农业大学学报,2009,28(6)651-654.
[12]邓华凤,何强,舒服,等.中国杂交粳稻研究现状与对策[J].杂交水稻,2006,21(1):1-6.
[13]董彦君,石守鋆,董文其.水稻胞质不育恢复基因遗传分析[J].浙江农业学报,1995,7(2):81-84.
[14]富昊伟,薛庆中.三种水稻胞质雄性不育恢复基因的比较[J].分子植物育种.2004,2(3):336-341.
[15]付新民,王岩,高冠军,等.利用水稻重组自交系进行配合力遗传分析[J].华中农业大学学报,2010,29(4):397-402.
[16]冯建成.分子标记辅助选择技术在水稻育种上的应用[J].中国农学通报,2006,22(2):43-47.
[17]高明尉.野败型杂交籼稻基因的初步分析[J].遗传学报,1981,8(1):66-74.
[18]龚光明,周国锋,尹楚球,等.籼型两用核不育系主要农艺性状的配合力分析[J].中国水稻科学,1993,(3):137-142.
[19]韩龙植,乔永利,张媛媛,等.水稻孕穗期耐冷性QTLs分析[J].作物学报,2005,31(5):653-657.
[20]郝岗平,陈敏,杨清.植物线粒体与细胞质雄性不育研究进展[J].植物学通报,2003,20(5):549-557.
[21]何光华,王文明,刘国庆,等.利用SSR标记定位明恢63的2对恢复基因[J].遗传学报,2002,29(9):798-802.
[22]贺和初.滇Ⅰ型和BT型杂交稻育性遗传和不育机理研究[J].云南农业大学学报,1988,3(1):54-68.
[23]胡继银,蒋艾青.美国杂交水稻现状及发展前景[J].杂交水稻,2011,26(1):81-83.
[24]胡锦国.水稻雄性不育性遗传分析指标的探讨[J].华中农学院学报,1983,2(3):16-21.
[25]胡锦国,李泽炳.四种水稻细胞质雄性不育系育性遗传的初步研究[J].华中农学院学报,1985,4(1):15-22.
[26]黄青阳,何予卿.3种水稻细胞质雄性不育系育性遗传的比较[J].中国农业科学,2000,33(3):8-13.
[27]黄青阳,何予卿,景润春,等.利用微卫星标记定位水稻红莲型细胞质雄性不育的恢复基因[J].科学通报,1999,44(14):1517-1519.
[28]蒋开锋,郑家奎,张长伟,等.杂交水稻结实率稳定性的遗传分析.生物数学学报,1999,14(2):241-246.
[29]景润春,何予卿,黄青阳,等.水稻野败型细胞质雄性不育恢复基因的ISSR和SSLP标记分析[J].中国农业科学,2000,33(2):10-15.
[30]李成德.高温导致水稻出现大量空壳分析.陕西农业科学,2003,5:45-47.
[31]李广贤.野败型CMS育性恢复基因的微卫星标记定位[D].硕士学位论文.北京:中国农业科学院研究生院,2005:1-2.
[32]李广贤,屠国庆,张克勤,等.应用微卫星标记定位水稻恢复系密阳46的主效和微效恢复基因[J].中国水稻科学,2005,19(6):506-510.
[33]李广贤,姚方印,庄杰云,等.水稻细胞质雄性不育的育性遗传及恢复基因的定位研究进展[J].杂交水稻,2006,21(3):1-6.
[34]李浩杰,李平,高方远,等.SSR标记辅助选择改良冈46B直链淀粉含量的研究[J].作物学报,2004,30(11):1159-1163.
[35]李和标,李传国,陈忠明,等.籼粳杂种F1结实率稳定性研究[J].江苏农业学报,1995,11(3):7-11.
[36]李家洋.中国科学家在水稻籼粳杂种不育研究取得的突破性进展[J].分子植物育种,2009,7(1):1-4.
[37]李进波,王春连,夏明元,等.分子标记辅助选择Xa23基因培育杂交稻抗白叶枯病恢复系[J].作物学报,2006,32(10):1423-1429.
[38]李亮杰.水稻印水型CMS恢复基因、金黄色颖壳和节间基因的初步定位[D].中国农业科学院,2007.
[39]李亮杰,周海鹏,占小登,等.水稻印尼水田谷型细胞质雄性不育恢复系R68的恢复基因初步定位[J].中国水稻科学,2007,21(5):547-550.
[40]李平,周开达,陈英,等.利用分子标记定位水稻野败型质核互作雄性不育恢复基因[J].遗传学报,1996,23(5):357-362.
[41]李荣改,王振圻,孟令启.水稻广亲和恢复系的筛选鉴定与利用[J].作物品种资源,1994,1:17-18.
[42]李太贵,沈波.水稻品种开花期抗热性鉴定研究[J].作物品种资源,1995,1:34-35.
[43]李伟,张建中,左清凡.水稻不同籼粳分化品系主要农艺性状配合力的比较分析[J].中国农学通报,2002,18(5):16-19.
[44]李祥洲,任昌福,陈晓玲.水稻亚种间杂种一代籽粒充实的气象条件研究[J].作物学报,1996,22(2):247-250.
[45]李欣,莫惠栋,王安民,等.粳型杂种稻米品质性状的遗传表达[J].中国水稻科学,1999,13(4):197-204.
[46]黎垣庆.IR24恢复基因遗传的系谱分析[J].中国农业科学,1985,1:24-31.
[47]李泽炳,胡锦国,盛孝邦.水稻雄性不育系不育性的一些遗传特点的研究[M].国际杂交水稻学术讨论会论文集,学术期刊出版社,1988:326-332.
[48]李泽炳,肖诩华,朱英国.杂交水稻的研究与实践[M].上海科学技术出版社.1983:164-165.
[49]李铮友,纳信真,黄本铣,等.滇型杂交水稻[M].云南人民出版社.1980:18-19,21.
[50]梁国华.水稻三种细胞质雄性不育系的恢复性遗传研究[J].扬州:扬州大学农学院,1998.
[51]梁国华,严长杰,汤述翥,等.BT型细胞质雄性不育恢复基因的基因定位[J].中国农业科学,2001,15(2):89-92.
[52]林世成,闵绍楷.中国水稻品种及其系谱[M].1991,上海科学技术出版社.
[53]刘航,李丹,李绍波.水稻红莲型CMS育性恢复QTL分析[J].武汉植物学研究,2005,23(2):111-115.
[54]鲁伟林,段仁周,余新春,等.水稻重组自交恢复系配组后代杂种优势的差异性分析[J].河南农业科学,2007,23(4):23-26.
[55]陆作楣.论杂交稻育种的配合力选择[J].中国水稻科学,1999,13(1):1-5.
[56]罗丽华,刘国华,肖应辉,等.高温胁迫对水稻花粉和小穗育性及稻谷粒重的影响[J].湖南农业大学学报,2005,31(6):593-596.
[57]吕志仁.中国遗传学会第二次代表大会暨学术讨论会论文摘汇编[M].中国遗传学会.1983:229-230.
[58]吕川根,王才林,宗寿余,等.温度对水稻亚种间杂种育性及结实率的影响[J].作物学报,2002,28(4):499-504.
[59]潘熙淦,陈承尧,陈大洲,等.水稻杂种优势利用基础研究报告:IV细胞质对杂种优势效应分析[J].江西农业科技,1982,(2):9-12.
[60]彭俊华.杂交水稻数量性状配合力、遗传力及其地点变异性分析[J].西南农业学报,1993,6(2):12-20.
[61]亓芳丽,姜明松,袁守江,等.水稻野败型细胞质雄性不育恢复基因Rf3的定位[J].中国农学通报,2008,24(8):114-1117.
[62]曲衍进,余显权,赵福胜,等.不同籼型败育胞质对水稻杂种F1主要性状的影响[J].种子,2008,27(4):11-14.
[63]沈圣泉,薛庆中.水稻细胞质的核质互作对籼粳杂种F1代主要农艺性状的影响[J].中国水稻科学,1997,11(l):6-10.
[64]盛孝邦.水稻不育细胞质遗传效应的初步研究.不育细胞质对杂交水稻农艺性状的影响[J].华中农学院学报,1982,(3):1-13.
[65]盛孝邦,李泽炳.我国杂交水稻雄性不育细胞质研究的进展[J].中国农业科学,1986,(6):12-16.
[66]石春海,余永贵,薛建明,等.籼稻稻米营养品质性状的种子、细胞质和母体遗传相关分析[J].中国水稻科学,1996,10(3):143-146.
[67]孙东发,李实蕡.杂交水稻不同细胞质源的配合力分析[J].中国水稻科学,1988,2(2):49-55.
[68]谭学林,师常俊.水稻不同胞质育性恢复基因分子定位及其相互关系[J].杂交水稻,1999,14(3):37-39.
[69]谭亚玲,谭学林.滇一型杂交粳稻恢复基因的分子鉴定研究[J].分子植物育种,2004,2(2):209-214.
[70]谭亚玲,王石华,洪汝科,等.Rf-1位点CAPS标记对水稻不同胞质雄性不育育性恢复系的关系分析[J].分子植物育种,2009,7(3):461-464.
[71]汤述翥,孙叶,张宏根,等.同核异质粳稻不育系特性比较[J].中国水稻科学,2005,19(6):521-526.
[72]汤述翥,张亚东,孙红芹,等.水稻同核异质广亲和不育系细胞质效应的研究[J].作物学报,2003,29(2):202-207.
[73]涂俊,朱英国.水稻线粒体基因组与细胞质雄性不育研究进展[J].遗传,1997,19(5):45-48.
[74]涂敏,黄贵民,甘雨,等.应用AMMI模型分析水稻区域试验[J].种子,2010,29(9):86-88.
[75]王才林,陈涛,张亚东,等.通过分子标记辅助选择培育优良食味水稻新品种[J].中国水稻科学,2009,23(1):25-30.
[76]王才林,汤玉庚.杂交粳稻不育胞质遗传效应的研究[J].作物学报,1990,16(4):335-341.
[77]王文明,文宏灿,袁国良.水稻雄性不育细胞质对杂交早稻产量性状的影响[J].四川农业大学学报,1994,12(3):383-387.
[78]王文明,周开达,文宏灿,等.细胞质效应在杂交水稻主要数量性状上的多样化[J].中国水稻科学,1997,11(2):65-69.
[79]王先俱,谭学林,邵国军,等.印水型细胞质雄性不育粳稻恢复系分子标记辅助选择研究[J].分子植物育种,2010,8(2):329-334.
[80]魏耀林.北方粳型光温敏核不育系选育研究[D].沈阳农业大学,硕士学位论文,2000.
[81]吴鹤鸣,周邗扬,谢小凰.同核异质粳稻吗雄性不育系花粉和花药发育的细胞学观察.江苏农业学报,1987,3(1):19-24.
[82]西山岩男,赵贵彬,凌天行.水稻高温障碍的研究[J].国外农学-水稻,1982,5:17-20.
[83]夏明元,李进波,张建华,等.利用分子标记辅助选择技术选育具有中等直链淀粉含量的早稻品种[J].华中农业大学学报,2004,23(2):183-186.
[84]夏元明,戚华雄.高温热害对四个不育系配制的杂交组合结实率的影响[J].湖北农业科学,2004,2:21-22.
[85]邢祖颐,李梅芳,王淑敏,等.籼粳稻杂交育种的研究[J].中国农业科学,1980,2:24-30.
[86]徐辰武,莫惠栋,张爱红,等.籼粳杂种稻米品质性状的遗传控制[J].遗传学报,1995,22(3):192-198.
[87]许传桢,元生朝,蔡士玉.高温对杂交稻结实率的影响[J].华中农学院学报,1982,2(3):1-7.
[88]谢华安,张建福,王乌齐,等.超级稻育种实践与前景[J].分子辅助育种,2006,(6):4-10.
[89]谢建坤,庄杰云,樊叶杨等.水稻CMS-DA育性恢复基因定位及其互作分析[J].遗传学报,2002,29(7):616-621.
[90]徐鹏,陶大云,李静,等.国外粳型陆稻品系育性恢复基因等位性分析[J].西南农业大学学报,2003,25(1):36-40.
[91]薛庆中,张能义,熊兆飞,等.应用分子标记辅助选择培育抗白叶枯病水稻恢复系[J].浙江农业大学学报,1998,24(6):631-638.
[92]杨改刚.水稻滇型细胞质雄性不育特异恢复基因遗传特性及定位研究[D].硕士学位论文,云南农业大学,2007,16-29.
[93]杨空松,陈小荣,傅军如,等.东乡野生稻育性恢复性的鉴定与遗传分析[J].中国水稻科学,2007,21(5):487-492.
[94]杨仁崔,刘抗美,卢浩然.水稻“野败”不育胞质对杂种一代的影响[J].福建农学院学报,1980,1(2):l-8.
[95]杨涛,李加纳,唐章林,等.三种评价品种稳定性方法的比较[J].贵州农业科学,2006,34(1):28-31.
[96]杨振玉.粳型杂交水稻育种的进展[J].杂交水稻,1994(3):46-49.
[97]杨振玉.北方杂交粳稻的思考与展望[J].作物学报,1998,24(6):840~846.
[98]杨竹平,韩佩莱,沈革志,等.水稻亚种间杂种的小穗育性遗传[J].上海农业学报,1993,9(1):1-5.
[99]余守武,万勇,胡标林,等.东乡野生稻细胞质雄性不育育性恢复的遗传研究[J].分子植物育种,2005,3(6):761-767.
[100]袁隆平.利用“野败”选育三系的进展[D].1973年10月苏州召开的水稻科研会议上的论文.
[101]袁隆平,唐传道.杂交水稻选育的回顾、现状与展望[J].中国稻米.1999,4:3-6.
[102]张桂莲,陈立云,张顺堂,等.高温胁迫对水稻花粉粒性状及花药显微结构的影响[J].生态学报,2008,28(3):1089-1097.
[103]张宏根.野败型粳稻不育系的恢复系选育及其恢复基因定位[D].硕士毕业论文,扬州大学,2006.
[104]张宏根,李波,朱正斌,等.分子标记辅助选择改良武育粳3号的条纹叶枯病抗性[J].中国水稻科学,2009,23(3):263-270.
[105]张金伟,李霞,万勇,等.东乡野生稻细胞质雄性不育育性恢复基因的遗传分析及应用[J].分子植物育种,2011,9(1):25-33.
[106]张群宇,刘耀光,张桂权,等.野败型水稻细胞质雄性不育恢复基因Rf-4的分子标记定位[J].遗传学报,2002,29(11):1001-1004.
[107]张文龙,陈志伟,杨文鹏,等.分子标记辅助选择技术及其在作物育种上的应用研究[J].种子,2008,27(4):38-47.
[108]赵荣敏,王迎春,范云六.油菜玻利马胞质雄性不育相关线粒体基因orf24在大肠杆菌中的克隆和表达[J].农业生物技术学报,2000,26(5):575-578.
[109]赵银河,谭学林,李本逊.水稻雄性不育、恢复性的遗传及恢复基因的分子标记研究进展[J].作物杂志,2002,4:5-8.
[110]赵银河,谭学林,谭亚玲,等.滇1型水稻质核雄性不育恢复基因的PCR分子标记[J].种子,2003,2:45-47.
[111]赵银河,张雪梅,谭亚玲,等.滇1型杂交水稻质核雄性不育恢复基因的SSR分子标记[J].种子.2004,23(3):11-16.
[112]赵正武,曾卓华,陈旭,等.自然高温胁迫对杂交水稻花粉育性和主要农艺性状的影响[J].江西农业学报,2009,21(8):19-21.
[113]郑志广.光温条件对水稻结实及干物质生产的影响[J].北京农学院学报,2003,18(1):13-16.
[114]朱德峰,庞乾林,何秀梅.我国历年水稻产量增长因素分析与今后的发展对策.中国稻米,1997,(1):3-6.
[115]朱建荣,李东宣,钱树琪,等.滇型水稻细胞质雄性不育恢复基因Rf-D1(t)的克隆与遗传特性分析[J].分子植物育种,2009,7(4):671-678.
[116]褚圻,王云侠.水稻5种同核异质雄性不育系的酯酶、过氧化物酶同工酶分析[J].上海农业学报,1985,1(1):1-10.
[117]褚庆全,齐成喜,杨飞,等.我国杂交粳稻发展现状、问题及其对策[J].种业导报,2005,5:19-20.
[118]朱英国.水稻不同细胞质类型雄性不育系的研究[J].遗传学报,1979,6(1):11.
[119]朱英国.水稻不同细胞质类型雄性不育系研究[J].作物学报,1979,5(4):29-37.
[120]朱英国.水稻雄性不育生物学[M].武汉大学出版社.2000:13-14.
[121]庄杰云,樊叶杨,吴建利,等.水稻CMS-WA育性恢复基因的定位[J].遗传学报,2001,28(2):129-134.
[122] Ahmadikhah A, Karlov. Molecular mapping of the fertility-restoration gene Rf4forWA-cytoplasmic male sterility in rice[J]. Plant Breeding,2006,125(4):363-367.
[123] Akagi H, Nakamura A, Yokozeki-Misono Y, et al. Positional cloning of the rice Rf-1gene, arestorer of BT-type cytoplasmic male sterility that encodes a mitochondria-targeting PPRprotein[J]. Theor Appl Genet,2004,108(8):1449-1457.
[124] Akagi H, Sakamoto M, Shinjyo C, et al. A unique sequence located downstream from therice mitochondrial atp6may cause male sterility[J]. Curr. Genet,1994,25:52-58.
[125] Araki H, Toya K, Ikehashi H. Role of wide compatibility-genes in hybrid rice breeding[J]. InHybrid Rice, IRRI Manila Philippines,1988:79-83.
[126] Akagi H, Yokozeki Y, Inagaki A, et al. A codominant DNA marker closely linked to the ricenuclear restorer gene, Rf-1, identified with inter SSR fingerprinting[J].Genome,1996,39(6):1205-1209.
[127] Baharaj T S, Bains S S, Sidhul G S, et al. Genetics of fertility restoring of wild-abortivecytoplasmic male sterility in rice[J]. Euphytica,1991,56:199-203.
[128] Bazrkar L, Ali A J, Babaeian N A, et al. Tagging of four fertility restorer loci for wildabortive-cytoplasmic male sterility system in rice(Oryza sativa L.) using microsatellitemarkers[J]. Euphytica,2008,164:669-677.
[129] Bellaoui M, Grelon M, Pelletier G, et al. The restorer gene acts post-translate only on thestability of the ORF138Ogura CMS-associated protein in reproductive tissues of rapeseedcybrids[J]. Plant Mol Biol,1999,40:893-902.
[130] Dong Y J, Shi S Y, Dong W Q. Genetic analysis of restoring genes for cytoplasmicmale-sterility in rice(Oryza sativa L.)[J]. Acta Agriculturae ZhejiangGensis,1995,7(2):81-84.
[131] Fukata Y, Yano M, Fukui K. Linkage analysis of the restorer gene (Rf-1) in rice usingrestriction fragment length Polymorphism markers[J]. JPN J Breed,1992,42(suppl1):164-165.
[132] Gauch H G, Zobel R W. AMMI analyses of yield trials. In Kang M S and Gauch H G(eds.).Genotype by Environment Internation. CRC. Boca Raton, Florido, pp.85-122
[133] Gimelfarb A, Lande R. Simulation of marker assisted selection in hybrid population[J].Genetial Research,1994,63:39-45.
[134] Gray M W, Hanie P J, Covello P S. Transcription processing and editing in plantmitochondria[J]. Annu Rev Plant Physic,1994,43:145-175.
[135] Hanson M R, Bentolila S. Interactions of mitochondrial and nuclear genes that affect malegametophyte development[J]. Plant Cell,2004,16:154-169.
[136] He S C, Abad A R, Gelvin S B, et al. A cytoplasmic male sterility associated mitochondrialprotein causes pollen distribution in transgenic tobacco[J]. Proc Natl Acad SciUSA,1996,931:11763-11768.
[137] Hospital F, Charcosset A. Marker-assisted introgression of quantitative trait loci[J].Genetics,1997,147:1469-1485.
[138] Huang J Y,Hu J,Xu X,et al. Fine mapping of the nuelear fertility restorer gene for HLcytoplasmic male sterility in rice[J]. Bot Bull Acad Sin,2003,44:285-289.
[139] Huang N, Angeles E R, Domingo J, et al. Pyramiding of bacterial blight resistance genes inrice: marker-assisted selection using RFLP and PCR[J]. Thero Appl Genet,1997,95:313-320.
[140] Huang Q Y, He Y Q, Jing R C, et al. Mapping of the nuclear fertility restorer gene for HLcytoplasmic male sterility in rice using microsatellite markers[J]. Chinese ScienceBulletin,2000,45(5):430-432.
[141] Ichikawa N, Kishimoto N, Inagaki A, et al. A rapid PCR-aided selection of a rice linecontaining the Rf-l gene which is involved in restoration of the cytoplasmic male sterility[J].Molecular Breeding,1997,3:195-202.
[142] Ikehashi H, Araki H. Genetics of F1sterility in remote crosses of rice[J]. In Rice Genetics,IRRI Manila Philippines,1986:119-130.
[143] Ikehashi H, Araki H. Multiple alleles controlling F1sterility in remote crosses of rice(Oryzasativa L.)[J]. Japan J Breed,1988,34:304-313.
[144] Iwabuchi M, Kyozuka J, Shimamoto K. Processing followed by complete editing of analtered mitochondrial apt6RNA restores fertility of cytoplasmic male sterile rice[J]. EMBOJ,1993,12:1437-1446.
[145] Jing R C, Li X M, Yi P, et al. Mapping fertility restoring genes of rice WA cytopasmicmale sterility using SSLP markers[J]. Bot Bull Acad Sin,2001,42:167-171.
[146] Kadowaki K, Suzuki T, Kazama S. A Chimeric gene containing the5' Portion of atp6isassociated with cytoplasmic male-sterility of rice[J]. Mol Gen Genet,1990,22(4):10-16.
[147] Kazama T, Nakamura T, Watanabe M, et al. Suppression mechanism of mitochondrialORF79accumulation by Rf1protein in BT-type cytoplasmic male sterile rice[J]. The PlantJournal,2008,55:619-628.
[148] Komori T, Ohta S. Map-based cloning of a fertility restorer gene, Rf-1, in rice (Oryza sativaL.)[J]. Plant,2004,37(3):315-325.
[149] Komori T, Yamamoto T, Takemori N, et al. Fine genetic mapping of the nuclear gene Rf-1,that restores the BT-type CMS in rice (Oryza sativa L.) by PCR-based markers[J].Euphytica,2003,129:241-247.
[150] Li H B, Zhang Q F, Liu A M, et al. A genetic analysis of low temperature sensitive sterilityin indica-japonica rice hybrids[J]. Plant Breeding,1996,115:305-309.
[151] Li X Q, Jean M, Landry B S, et al. Restorer genes for different forms of brassicacytoplasmic male sterility map to a single nuclear locus that modifies transcripts of severalmitochondrial genes[J]. Proc Nat Acad Sci USA,1998,95(17):10032-10037.
[152] Liu A W, Narayanan K K, Andre C P, et al. Contranscription of orf25and coxⅢ in ricemitochondria[J]. Curr Genet,1992,21:507–513.
[153] Liu X Q, Xu X, Tan Y P, et al. Inheritance and molecular mapping of two fertility restoringloci for Honglian gametophytic cytoplasmic male sterility in rice(Oriza Sativa L.)[J]. TheorAppl Genet,2004,271:586-594.
[154] Matsui T, Omasa K, Horie T. Comparison between anthers of two rice (Oryza sativaL.)cultivars with tolerance to high temperatures at flowering or susceptibility[J].Plant ProdSci,2001,(4):36-40.
[155] Matsushima S, Ikewada H, Maeda A, et al. Studies on rice cultivation in the tropics.1.yielding and ripening responses of the rice plant to the extremely hot and dry climate inSudan[J]. Japanese Journal of Tropical Agriculture,1982,26:19-25.
[156] McCouch S R, Teytelman L, Xu Y B, et al. Development and mapping of2240new SSRmarkers for rice(Oryza sativa L.)[J]. DNA Research,2002,9(6):199-207.
[157] Menassa M, Homme Y L, Brown G G. Post-transcriptional and developmental regulation ofa CMS-associated mitochondrial gene region by a nuelear restorer gene[J]. PlantJ,1999,17(5):491-497.
[158] Mishra G P, Prabhu K V, Zaman F U. Molecular mapping of a gene for fertility restoration ofwild abortive (WA) cytoplasmic male sterility using a basmati rice restorer line[J]. Journal ofPlant Biochemistry and Biotechnology,2003,12(1):37-42.
[159] Nematzadeh G A, Kiani G. Genetic analysis of fertility restoration genes for WA-typecytoplasmic male sterility in Iranian restorer rice line DN-33-18[J]. African Journal ofBiotechnology,2010,9(38):6273-6277.
[160] Peng S B, Huang J L, John E. Rice yields decline with high temperature from globalwarming[J]. Proceeding of the National Academy of Science, USA,2004,101(27):9971-9975.
[161] Ribaut J M, Hoisington D. Marker-assisted selection: new tools and strategies[J]. Trends inPlant Sci,1998,3:236-239.
[162] Rogers S O, Bendich A J. Extraction of DNA from plant tissues. In: Gelvin SB,Schilperpoort RA and Verma DPS (eds) Plant Molecular Biology Manual[J]. v. A6, KluwerAcademic Publishers, Dordrecht,1988, pp1-10.
[163] Sattari M, Kathiresan A, Gregorio G B, et al. Comparative genetic analysis and molecularmapping of fertility restoration genes for WA, Dissi, and Gambiaca cytoplasmic malesterility systems in rice[J]. Euphytica,2008,160(3):305-315.
[164] Shinjyo C. Genetical studies of cytoplasmic male sterility and fertility restoration inrice[J].Sci Bull Agri Univ Ryukyus,1975,22:1-57.
[165] Singh M, Brown G. Suppression of cytoplasmic male sterility by nuclear genes altersexpression of a novel mitochondrial gene region[J]. Plant Cell,1991,3:1349-1362.
[166] Tan X L, Vanavichit A, Amornsilpa S, et al. Genetic analysis of rice CMS-WA fertilityrestoration based on QTL mapping[J]. Theor Appl Genet,1998,96:994-999.
[167] Tan X L, Vnavichit A, Amornsilpa S. Mapping of rice Rf gene by bulked line analysis[J].DNA RESEARCH,1998,9:15-18.
[168] Tan Y P, Li S Q, Wang L, et al. Genetic analysis of fertility-restorer genes in rice[J]. BiolPlant,2008,52(3):469-474.
[169] Tao D Y, Xu P, Li J, et al. Inheritance and mapping of male sterility restoration gene inupland japonica restorer lines[J]. Euphytica,2004,138:247-254.
[170] Tian X J, Zheng J, Hu S N, et al. The Rice Mitochondrial Genomes and Their Variations[J].Plant Physiology,2006,2(140):401-410.
[171] Virmani S S, Shinjyo C. Current status of analysis and symbols formale sterile cytoplasmsand fertility-restoring genes[J]. RGN,1988,(5):9-15.
[172] Wang N Y, Liang K J, Li Y, et al. Inheritance of Restorer Gene for CMS-FA Hybrid Rice[J].ACTA AGRONOMICA SINICA,2008,34(11):1929-1937.
[173] Wang X J, Tan X L, Shao G J, et al. Marker-Assistsed Selection of Japonica Restorers usedfor Yinshui CMS System[J]. Rice Genomics and Genetics,2012,3(4):19-24.
[174] Wang Y, Fu X M, Gao G J, et al. Improving the Grain Quality of Minghui63, a RestorerLine of Rice with Good Quality through Marker-Assisted Selection[J]. Molecular PlantBreeding,2009,7(4):661-665.
[175] Wang Z H, Zou Y J, Li X Y, et al. Cytoplasmic male sterility of rice with Boro Ⅱcytoplasm is caused by a cytotoxic peptide and is restored by two related PPR motif genesvia distinct modes of mRNA silencing[J]. Plant Cell,2006,18(3):676-687.
[176] Yao F Y, Xu C G, Yu S B, et al. Mapping and genetic anslysis of two fertility restoration lociin the wild-abortive cytoplasmic male sterility system of rice[J]. Euphytica,1997,98:183-187.
[177] Yu Z H, McCouch S R, Kinoshita T, et al. Association of morphological and RFLP markersin rice (Oryza sativa L.)[J]. Genome,1992,38:566-574.
[178] Zhang G, Bharaj T S, Lu Y, et al. Mapping of the Rf nuclear fertility-restoring gene forWA-cytoplasmic male sterility in rice using RAPD and RFLP markers[J]. Theor ApplGenet,1997,94:27-33.
[179] Zhang J W, Shi S Y, Dong W Q. The Genetic Analysis and Application of the FertilityRestoring Gene of Cytoplasmic Male Sterility in Dongxiang Wild Rice(Oryza rufipogonGriff.)[J]. Molecular Plant Breeding,2011,l9(1):25-33.
[180] Zhang X X, Zhou K R, Tang J, et al. Analysis of Heading Time Gene and Gene LociInteractive Effect in Gui99, a Restorer Line of Hybrid Rice (Oryza Sativa L.)[J].ACTAAGONOMICA SINACA,2006,32(6):833-839.
[181] Zhou H P, Zhan X D, Cai R Y, et al. Breeding of Rice Restorer Lines Carrying BlastResistance Gene Pi25by Marker-Assisted Selection[J]. Chinese J RiceSci,2008,22(6):590-596.
[2]曹立勇,赵建根,占小登,等.水稻耐热性的QTL定位及耐热性与光合速率的相关性[J].中国水稻科学,2003,17(3):223-227.
[3]陈建民,付志英,权宝权,等.分子标记辅助培育双抗稻瘟病和白叶枯病杂交稻恢复系[J].分子植物育种,2009,7(3):465-470.
[4]陈立云,熊炜,阳菊华,等.亚种间杂交稻结实率稳定性的研究[J].杂交水稻,2003,18(3):49-52.
[5]陈萍.不同不育细胞质对杂种优势效应研究[J].杂交水稻,1992,(3):42-44.
[6]陈升位,杨德,张琼仙,等.滇1型杂交粳稻两个高产组合保持系、恢复系的RAPD标记分析[J].云南农业大学学报,2001,16(3):191-194.
[7]陈亚君,丁芬,王先俱,等.印水型粳稻不育系的选育与研究(I)[J].北方水稻,2008,38(1):15-19.
[8]陈亚君,丁芬,王先俱等.印水型粳稻不育系的选育与研究(Ⅱ)[J].北方水稻,2009,39(1):6-9.
[9]程保山,洪德林,万志兵,等.与粳稻BT型细胞质育性恢复基因连锁的实用SSR标记的筛选[J].南京农业大学学报.2011,34(1):1-7.
[10]程侃声著.亚洲稻籼粳亚种的鉴别[M].昆明:云南科技出版社,1993,1-23.
[11]杜雪树,夏明元,李进波,等.分子标记辅助选择选育香稻恢复系[J].华中农业大学学报,2009,28(6)651-654.
[12]邓华凤,何强,舒服,等.中国杂交粳稻研究现状与对策[J].杂交水稻,2006,21(1):1-6.
[13]董彦君,石守鋆,董文其.水稻胞质不育恢复基因遗传分析[J].浙江农业学报,1995,7(2):81-84.
[14]富昊伟,薛庆中.三种水稻胞质雄性不育恢复基因的比较[J].分子植物育种.2004,2(3):336-341.
[15]付新民,王岩,高冠军,等.利用水稻重组自交系进行配合力遗传分析[J].华中农业大学学报,2010,29(4):397-402.
[16]冯建成.分子标记辅助选择技术在水稻育种上的应用[J].中国农学通报,2006,22(2):43-47.
[17]高明尉.野败型杂交籼稻基因的初步分析[J].遗传学报,1981,8(1):66-74.
[18]龚光明,周国锋,尹楚球,等.籼型两用核不育系主要农艺性状的配合力分析[J].中国水稻科学,1993,(3):137-142.
[19]韩龙植,乔永利,张媛媛,等.水稻孕穗期耐冷性QTLs分析[J].作物学报,2005,31(5):653-657.
[20]郝岗平,陈敏,杨清.植物线粒体与细胞质雄性不育研究进展[J].植物学通报,2003,20(5):549-557.
[21]何光华,王文明,刘国庆,等.利用SSR标记定位明恢63的2对恢复基因[J].遗传学报,2002,29(9):798-802.
[22]贺和初.滇Ⅰ型和BT型杂交稻育性遗传和不育机理研究[J].云南农业大学学报,1988,3(1):54-68.
[23]胡继银,蒋艾青.美国杂交水稻现状及发展前景[J].杂交水稻,2011,26(1):81-83.
[24]胡锦国.水稻雄性不育性遗传分析指标的探讨[J].华中农学院学报,1983,2(3):16-21.
[25]胡锦国,李泽炳.四种水稻细胞质雄性不育系育性遗传的初步研究[J].华中农学院学报,1985,4(1):15-22.
[26]黄青阳,何予卿.3种水稻细胞质雄性不育系育性遗传的比较[J].中国农业科学,2000,33(3):8-13.
[27]黄青阳,何予卿,景润春,等.利用微卫星标记定位水稻红莲型细胞质雄性不育的恢复基因[J].科学通报,1999,44(14):1517-1519.
[28]蒋开锋,郑家奎,张长伟,等.杂交水稻结实率稳定性的遗传分析.生物数学学报,1999,14(2):241-246.
[29]景润春,何予卿,黄青阳,等.水稻野败型细胞质雄性不育恢复基因的ISSR和SSLP标记分析[J].中国农业科学,2000,33(2):10-15.
[30]李成德.高温导致水稻出现大量空壳分析.陕西农业科学,2003,5:45-47.
[31]李广贤.野败型CMS育性恢复基因的微卫星标记定位[D].硕士学位论文.北京:中国农业科学院研究生院,2005:1-2.
[32]李广贤,屠国庆,张克勤,等.应用微卫星标记定位水稻恢复系密阳46的主效和微效恢复基因[J].中国水稻科学,2005,19(6):506-510.
[33]李广贤,姚方印,庄杰云,等.水稻细胞质雄性不育的育性遗传及恢复基因的定位研究进展[J].杂交水稻,2006,21(3):1-6.
[34]李浩杰,李平,高方远,等.SSR标记辅助选择改良冈46B直链淀粉含量的研究[J].作物学报,2004,30(11):1159-1163.
[35]李和标,李传国,陈忠明,等.籼粳杂种F1结实率稳定性研究[J].江苏农业学报,1995,11(3):7-11.
[36]李家洋.中国科学家在水稻籼粳杂种不育研究取得的突破性进展[J].分子植物育种,2009,7(1):1-4.
[37]李进波,王春连,夏明元,等.分子标记辅助选择Xa23基因培育杂交稻抗白叶枯病恢复系[J].作物学报,2006,32(10):1423-1429.
[38]李亮杰.水稻印水型CMS恢复基因、金黄色颖壳和节间基因的初步定位[D].中国农业科学院,2007.
[39]李亮杰,周海鹏,占小登,等.水稻印尼水田谷型细胞质雄性不育恢复系R68的恢复基因初步定位[J].中国水稻科学,2007,21(5):547-550.
[40]李平,周开达,陈英,等.利用分子标记定位水稻野败型质核互作雄性不育恢复基因[J].遗传学报,1996,23(5):357-362.
[41]李荣改,王振圻,孟令启.水稻广亲和恢复系的筛选鉴定与利用[J].作物品种资源,1994,1:17-18.
[42]李太贵,沈波.水稻品种开花期抗热性鉴定研究[J].作物品种资源,1995,1:34-35.
[43]李伟,张建中,左清凡.水稻不同籼粳分化品系主要农艺性状配合力的比较分析[J].中国农学通报,2002,18(5):16-19.
[44]李祥洲,任昌福,陈晓玲.水稻亚种间杂种一代籽粒充实的气象条件研究[J].作物学报,1996,22(2):247-250.
[45]李欣,莫惠栋,王安民,等.粳型杂种稻米品质性状的遗传表达[J].中国水稻科学,1999,13(4):197-204.
[46]黎垣庆.IR24恢复基因遗传的系谱分析[J].中国农业科学,1985,1:24-31.
[47]李泽炳,胡锦国,盛孝邦.水稻雄性不育系不育性的一些遗传特点的研究[M].国际杂交水稻学术讨论会论文集,学术期刊出版社,1988:326-332.
[48]李泽炳,肖诩华,朱英国.杂交水稻的研究与实践[M].上海科学技术出版社.1983:164-165.
[49]李铮友,纳信真,黄本铣,等.滇型杂交水稻[M].云南人民出版社.1980:18-19,21.
[50]梁国华.水稻三种细胞质雄性不育系的恢复性遗传研究[J].扬州:扬州大学农学院,1998.
[51]梁国华,严长杰,汤述翥,等.BT型细胞质雄性不育恢复基因的基因定位[J].中国农业科学,2001,15(2):89-92.
[52]林世成,闵绍楷.中国水稻品种及其系谱[M].1991,上海科学技术出版社.
[53]刘航,李丹,李绍波.水稻红莲型CMS育性恢复QTL分析[J].武汉植物学研究,2005,23(2):111-115.
[54]鲁伟林,段仁周,余新春,等.水稻重组自交恢复系配组后代杂种优势的差异性分析[J].河南农业科学,2007,23(4):23-26.
[55]陆作楣.论杂交稻育种的配合力选择[J].中国水稻科学,1999,13(1):1-5.
[56]罗丽华,刘国华,肖应辉,等.高温胁迫对水稻花粉和小穗育性及稻谷粒重的影响[J].湖南农业大学学报,2005,31(6):593-596.
[57]吕志仁.中国遗传学会第二次代表大会暨学术讨论会论文摘汇编[M].中国遗传学会.1983:229-230.
[58]吕川根,王才林,宗寿余,等.温度对水稻亚种间杂种育性及结实率的影响[J].作物学报,2002,28(4):499-504.
[59]潘熙淦,陈承尧,陈大洲,等.水稻杂种优势利用基础研究报告:IV细胞质对杂种优势效应分析[J].江西农业科技,1982,(2):9-12.
[60]彭俊华.杂交水稻数量性状配合力、遗传力及其地点变异性分析[J].西南农业学报,1993,6(2):12-20.
[61]亓芳丽,姜明松,袁守江,等.水稻野败型细胞质雄性不育恢复基因Rf3的定位[J].中国农学通报,2008,24(8):114-1117.
[62]曲衍进,余显权,赵福胜,等.不同籼型败育胞质对水稻杂种F1主要性状的影响[J].种子,2008,27(4):11-14.
[63]沈圣泉,薛庆中.水稻细胞质的核质互作对籼粳杂种F1代主要农艺性状的影响[J].中国水稻科学,1997,11(l):6-10.
[64]盛孝邦.水稻不育细胞质遗传效应的初步研究.不育细胞质对杂交水稻农艺性状的影响[J].华中农学院学报,1982,(3):1-13.
[65]盛孝邦,李泽炳.我国杂交水稻雄性不育细胞质研究的进展[J].中国农业科学,1986,(6):12-16.
[66]石春海,余永贵,薛建明,等.籼稻稻米营养品质性状的种子、细胞质和母体遗传相关分析[J].中国水稻科学,1996,10(3):143-146.
[67]孙东发,李实蕡.杂交水稻不同细胞质源的配合力分析[J].中国水稻科学,1988,2(2):49-55.
[68]谭学林,师常俊.水稻不同胞质育性恢复基因分子定位及其相互关系[J].杂交水稻,1999,14(3):37-39.
[69]谭亚玲,谭学林.滇一型杂交粳稻恢复基因的分子鉴定研究[J].分子植物育种,2004,2(2):209-214.
[70]谭亚玲,王石华,洪汝科,等.Rf-1位点CAPS标记对水稻不同胞质雄性不育育性恢复系的关系分析[J].分子植物育种,2009,7(3):461-464.
[71]汤述翥,孙叶,张宏根,等.同核异质粳稻不育系特性比较[J].中国水稻科学,2005,19(6):521-526.
[72]汤述翥,张亚东,孙红芹,等.水稻同核异质广亲和不育系细胞质效应的研究[J].作物学报,2003,29(2):202-207.
[73]涂俊,朱英国.水稻线粒体基因组与细胞质雄性不育研究进展[J].遗传,1997,19(5):45-48.
[74]涂敏,黄贵民,甘雨,等.应用AMMI模型分析水稻区域试验[J].种子,2010,29(9):86-88.
[75]王才林,陈涛,张亚东,等.通过分子标记辅助选择培育优良食味水稻新品种[J].中国水稻科学,2009,23(1):25-30.
[76]王才林,汤玉庚.杂交粳稻不育胞质遗传效应的研究[J].作物学报,1990,16(4):335-341.
[77]王文明,文宏灿,袁国良.水稻雄性不育细胞质对杂交早稻产量性状的影响[J].四川农业大学学报,1994,12(3):383-387.
[78]王文明,周开达,文宏灿,等.细胞质效应在杂交水稻主要数量性状上的多样化[J].中国水稻科学,1997,11(2):65-69.
[79]王先俱,谭学林,邵国军,等.印水型细胞质雄性不育粳稻恢复系分子标记辅助选择研究[J].分子植物育种,2010,8(2):329-334.
[80]魏耀林.北方粳型光温敏核不育系选育研究[D].沈阳农业大学,硕士学位论文,2000.
[81]吴鹤鸣,周邗扬,谢小凰.同核异质粳稻吗雄性不育系花粉和花药发育的细胞学观察.江苏农业学报,1987,3(1):19-24.
[82]西山岩男,赵贵彬,凌天行.水稻高温障碍的研究[J].国外农学-水稻,1982,5:17-20.
[83]夏明元,李进波,张建华,等.利用分子标记辅助选择技术选育具有中等直链淀粉含量的早稻品种[J].华中农业大学学报,2004,23(2):183-186.
[84]夏元明,戚华雄.高温热害对四个不育系配制的杂交组合结实率的影响[J].湖北农业科学,2004,2:21-22.
[85]邢祖颐,李梅芳,王淑敏,等.籼粳稻杂交育种的研究[J].中国农业科学,1980,2:24-30.
[86]徐辰武,莫惠栋,张爱红,等.籼粳杂种稻米品质性状的遗传控制[J].遗传学报,1995,22(3):192-198.
[87]许传桢,元生朝,蔡士玉.高温对杂交稻结实率的影响[J].华中农学院学报,1982,2(3):1-7.
[88]谢华安,张建福,王乌齐,等.超级稻育种实践与前景[J].分子辅助育种,2006,(6):4-10.
[89]谢建坤,庄杰云,樊叶杨等.水稻CMS-DA育性恢复基因定位及其互作分析[J].遗传学报,2002,29(7):616-621.
[90]徐鹏,陶大云,李静,等.国外粳型陆稻品系育性恢复基因等位性分析[J].西南农业大学学报,2003,25(1):36-40.
[91]薛庆中,张能义,熊兆飞,等.应用分子标记辅助选择培育抗白叶枯病水稻恢复系[J].浙江农业大学学报,1998,24(6):631-638.
[92]杨改刚.水稻滇型细胞质雄性不育特异恢复基因遗传特性及定位研究[D].硕士学位论文,云南农业大学,2007,16-29.
[93]杨空松,陈小荣,傅军如,等.东乡野生稻育性恢复性的鉴定与遗传分析[J].中国水稻科学,2007,21(5):487-492.
[94]杨仁崔,刘抗美,卢浩然.水稻“野败”不育胞质对杂种一代的影响[J].福建农学院学报,1980,1(2):l-8.
[95]杨涛,李加纳,唐章林,等.三种评价品种稳定性方法的比较[J].贵州农业科学,2006,34(1):28-31.
[96]杨振玉.粳型杂交水稻育种的进展[J].杂交水稻,1994(3):46-49.
[97]杨振玉.北方杂交粳稻的思考与展望[J].作物学报,1998,24(6):840~846.
[98]杨竹平,韩佩莱,沈革志,等.水稻亚种间杂种的小穗育性遗传[J].上海农业学报,1993,9(1):1-5.
[99]余守武,万勇,胡标林,等.东乡野生稻细胞质雄性不育育性恢复的遗传研究[J].分子植物育种,2005,3(6):761-767.
[100]袁隆平.利用“野败”选育三系的进展[D].1973年10月苏州召开的水稻科研会议上的论文.
[101]袁隆平,唐传道.杂交水稻选育的回顾、现状与展望[J].中国稻米.1999,4:3-6.
[102]张桂莲,陈立云,张顺堂,等.高温胁迫对水稻花粉粒性状及花药显微结构的影响[J].生态学报,2008,28(3):1089-1097.
[103]张宏根.野败型粳稻不育系的恢复系选育及其恢复基因定位[D].硕士毕业论文,扬州大学,2006.
[104]张宏根,李波,朱正斌,等.分子标记辅助选择改良武育粳3号的条纹叶枯病抗性[J].中国水稻科学,2009,23(3):263-270.
[105]张金伟,李霞,万勇,等.东乡野生稻细胞质雄性不育育性恢复基因的遗传分析及应用[J].分子植物育种,2011,9(1):25-33.
[106]张群宇,刘耀光,张桂权,等.野败型水稻细胞质雄性不育恢复基因Rf-4的分子标记定位[J].遗传学报,2002,29(11):1001-1004.
[107]张文龙,陈志伟,杨文鹏,等.分子标记辅助选择技术及其在作物育种上的应用研究[J].种子,2008,27(4):38-47.
[108]赵荣敏,王迎春,范云六.油菜玻利马胞质雄性不育相关线粒体基因orf24在大肠杆菌中的克隆和表达[J].农业生物技术学报,2000,26(5):575-578.
[109]赵银河,谭学林,李本逊.水稻雄性不育、恢复性的遗传及恢复基因的分子标记研究进展[J].作物杂志,2002,4:5-8.
[110]赵银河,谭学林,谭亚玲,等.滇1型水稻质核雄性不育恢复基因的PCR分子标记[J].种子,2003,2:45-47.
[111]赵银河,张雪梅,谭亚玲,等.滇1型杂交水稻质核雄性不育恢复基因的SSR分子标记[J].种子.2004,23(3):11-16.
[112]赵正武,曾卓华,陈旭,等.自然高温胁迫对杂交水稻花粉育性和主要农艺性状的影响[J].江西农业学报,2009,21(8):19-21.
[113]郑志广.光温条件对水稻结实及干物质生产的影响[J].北京农学院学报,2003,18(1):13-16.
[114]朱德峰,庞乾林,何秀梅.我国历年水稻产量增长因素分析与今后的发展对策.中国稻米,1997,(1):3-6.
[115]朱建荣,李东宣,钱树琪,等.滇型水稻细胞质雄性不育恢复基因Rf-D1(t)的克隆与遗传特性分析[J].分子植物育种,2009,7(4):671-678.
[116]褚圻,王云侠.水稻5种同核异质雄性不育系的酯酶、过氧化物酶同工酶分析[J].上海农业学报,1985,1(1):1-10.
[117]褚庆全,齐成喜,杨飞,等.我国杂交粳稻发展现状、问题及其对策[J].种业导报,2005,5:19-20.
[118]朱英国.水稻不同细胞质类型雄性不育系的研究[J].遗传学报,1979,6(1):11.
[119]朱英国.水稻不同细胞质类型雄性不育系研究[J].作物学报,1979,5(4):29-37.
[120]朱英国.水稻雄性不育生物学[M].武汉大学出版社.2000:13-14.
[121]庄杰云,樊叶杨,吴建利,等.水稻CMS-WA育性恢复基因的定位[J].遗传学报,2001,28(2):129-134.
[122] Ahmadikhah A, Karlov. Molecular mapping of the fertility-restoration gene Rf4forWA-cytoplasmic male sterility in rice[J]. Plant Breeding,2006,125(4):363-367.
[123] Akagi H, Nakamura A, Yokozeki-Misono Y, et al. Positional cloning of the rice Rf-1gene, arestorer of BT-type cytoplasmic male sterility that encodes a mitochondria-targeting PPRprotein[J]. Theor Appl Genet,2004,108(8):1449-1457.
[124] Akagi H, Sakamoto M, Shinjyo C, et al. A unique sequence located downstream from therice mitochondrial atp6may cause male sterility[J]. Curr. Genet,1994,25:52-58.
[125] Araki H, Toya K, Ikehashi H. Role of wide compatibility-genes in hybrid rice breeding[J]. InHybrid Rice, IRRI Manila Philippines,1988:79-83.
[126] Akagi H, Yokozeki Y, Inagaki A, et al. A codominant DNA marker closely linked to the ricenuclear restorer gene, Rf-1, identified with inter SSR fingerprinting[J].Genome,1996,39(6):1205-1209.
[127] Baharaj T S, Bains S S, Sidhul G S, et al. Genetics of fertility restoring of wild-abortivecytoplasmic male sterility in rice[J]. Euphytica,1991,56:199-203.
[128] Bazrkar L, Ali A J, Babaeian N A, et al. Tagging of four fertility restorer loci for wildabortive-cytoplasmic male sterility system in rice(Oryza sativa L.) using microsatellitemarkers[J]. Euphytica,2008,164:669-677.
[129] Bellaoui M, Grelon M, Pelletier G, et al. The restorer gene acts post-translate only on thestability of the ORF138Ogura CMS-associated protein in reproductive tissues of rapeseedcybrids[J]. Plant Mol Biol,1999,40:893-902.
[130] Dong Y J, Shi S Y, Dong W Q. Genetic analysis of restoring genes for cytoplasmicmale-sterility in rice(Oryza sativa L.)[J]. Acta Agriculturae ZhejiangGensis,1995,7(2):81-84.
[131] Fukata Y, Yano M, Fukui K. Linkage analysis of the restorer gene (Rf-1) in rice usingrestriction fragment length Polymorphism markers[J]. JPN J Breed,1992,42(suppl1):164-165.
[132] Gauch H G, Zobel R W. AMMI analyses of yield trials. In Kang M S and Gauch H G(eds.).Genotype by Environment Internation. CRC. Boca Raton, Florido, pp.85-122
[133] Gimelfarb A, Lande R. Simulation of marker assisted selection in hybrid population[J].Genetial Research,1994,63:39-45.
[134] Gray M W, Hanie P J, Covello P S. Transcription processing and editing in plantmitochondria[J]. Annu Rev Plant Physic,1994,43:145-175.
[135] Hanson M R, Bentolila S. Interactions of mitochondrial and nuclear genes that affect malegametophyte development[J]. Plant Cell,2004,16:154-169.
[136] He S C, Abad A R, Gelvin S B, et al. A cytoplasmic male sterility associated mitochondrialprotein causes pollen distribution in transgenic tobacco[J]. Proc Natl Acad SciUSA,1996,931:11763-11768.
[137] Hospital F, Charcosset A. Marker-assisted introgression of quantitative trait loci[J].Genetics,1997,147:1469-1485.
[138] Huang J Y,Hu J,Xu X,et al. Fine mapping of the nuelear fertility restorer gene for HLcytoplasmic male sterility in rice[J]. Bot Bull Acad Sin,2003,44:285-289.
[139] Huang N, Angeles E R, Domingo J, et al. Pyramiding of bacterial blight resistance genes inrice: marker-assisted selection using RFLP and PCR[J]. Thero Appl Genet,1997,95:313-320.
[140] Huang Q Y, He Y Q, Jing R C, et al. Mapping of the nuclear fertility restorer gene for HLcytoplasmic male sterility in rice using microsatellite markers[J]. Chinese ScienceBulletin,2000,45(5):430-432.
[141] Ichikawa N, Kishimoto N, Inagaki A, et al. A rapid PCR-aided selection of a rice linecontaining the Rf-l gene which is involved in restoration of the cytoplasmic male sterility[J].Molecular Breeding,1997,3:195-202.
[142] Ikehashi H, Araki H. Genetics of F1sterility in remote crosses of rice[J]. In Rice Genetics,IRRI Manila Philippines,1986:119-130.
[143] Ikehashi H, Araki H. Multiple alleles controlling F1sterility in remote crosses of rice(Oryzasativa L.)[J]. Japan J Breed,1988,34:304-313.
[144] Iwabuchi M, Kyozuka J, Shimamoto K. Processing followed by complete editing of analtered mitochondrial apt6RNA restores fertility of cytoplasmic male sterile rice[J]. EMBOJ,1993,12:1437-1446.
[145] Jing R C, Li X M, Yi P, et al. Mapping fertility restoring genes of rice WA cytopasmicmale sterility using SSLP markers[J]. Bot Bull Acad Sin,2001,42:167-171.
[146] Kadowaki K, Suzuki T, Kazama S. A Chimeric gene containing the5' Portion of atp6isassociated with cytoplasmic male-sterility of rice[J]. Mol Gen Genet,1990,22(4):10-16.
[147] Kazama T, Nakamura T, Watanabe M, et al. Suppression mechanism of mitochondrialORF79accumulation by Rf1protein in BT-type cytoplasmic male sterile rice[J]. The PlantJournal,2008,55:619-628.
[148] Komori T, Ohta S. Map-based cloning of a fertility restorer gene, Rf-1, in rice (Oryza sativaL.)[J]. Plant,2004,37(3):315-325.
[149] Komori T, Yamamoto T, Takemori N, et al. Fine genetic mapping of the nuclear gene Rf-1,that restores the BT-type CMS in rice (Oryza sativa L.) by PCR-based markers[J].Euphytica,2003,129:241-247.
[150] Li H B, Zhang Q F, Liu A M, et al. A genetic analysis of low temperature sensitive sterilityin indica-japonica rice hybrids[J]. Plant Breeding,1996,115:305-309.
[151] Li X Q, Jean M, Landry B S, et al. Restorer genes for different forms of brassicacytoplasmic male sterility map to a single nuclear locus that modifies transcripts of severalmitochondrial genes[J]. Proc Nat Acad Sci USA,1998,95(17):10032-10037.
[152] Liu A W, Narayanan K K, Andre C P, et al. Contranscription of orf25and coxⅢ in ricemitochondria[J]. Curr Genet,1992,21:507–513.
[153] Liu X Q, Xu X, Tan Y P, et al. Inheritance and molecular mapping of two fertility restoringloci for Honglian gametophytic cytoplasmic male sterility in rice(Oriza Sativa L.)[J]. TheorAppl Genet,2004,271:586-594.
[154] Matsui T, Omasa K, Horie T. Comparison between anthers of two rice (Oryza sativaL.)cultivars with tolerance to high temperatures at flowering or susceptibility[J].Plant ProdSci,2001,(4):36-40.
[155] Matsushima S, Ikewada H, Maeda A, et al. Studies on rice cultivation in the tropics.1.yielding and ripening responses of the rice plant to the extremely hot and dry climate inSudan[J]. Japanese Journal of Tropical Agriculture,1982,26:19-25.
[156] McCouch S R, Teytelman L, Xu Y B, et al. Development and mapping of2240new SSRmarkers for rice(Oryza sativa L.)[J]. DNA Research,2002,9(6):199-207.
[157] Menassa M, Homme Y L, Brown G G. Post-transcriptional and developmental regulation ofa CMS-associated mitochondrial gene region by a nuelear restorer gene[J]. PlantJ,1999,17(5):491-497.
[158] Mishra G P, Prabhu K V, Zaman F U. Molecular mapping of a gene for fertility restoration ofwild abortive (WA) cytoplasmic male sterility using a basmati rice restorer line[J]. Journal ofPlant Biochemistry and Biotechnology,2003,12(1):37-42.
[159] Nematzadeh G A, Kiani G. Genetic analysis of fertility restoration genes for WA-typecytoplasmic male sterility in Iranian restorer rice line DN-33-18[J]. African Journal ofBiotechnology,2010,9(38):6273-6277.
[160] Peng S B, Huang J L, John E. Rice yields decline with high temperature from globalwarming[J]. Proceeding of the National Academy of Science, USA,2004,101(27):9971-9975.
[161] Ribaut J M, Hoisington D. Marker-assisted selection: new tools and strategies[J]. Trends inPlant Sci,1998,3:236-239.
[162] Rogers S O, Bendich A J. Extraction of DNA from plant tissues. In: Gelvin SB,Schilperpoort RA and Verma DPS (eds) Plant Molecular Biology Manual[J]. v. A6, KluwerAcademic Publishers, Dordrecht,1988, pp1-10.
[163] Sattari M, Kathiresan A, Gregorio G B, et al. Comparative genetic analysis and molecularmapping of fertility restoration genes for WA, Dissi, and Gambiaca cytoplasmic malesterility systems in rice[J]. Euphytica,2008,160(3):305-315.
[164] Shinjyo C. Genetical studies of cytoplasmic male sterility and fertility restoration inrice[J].Sci Bull Agri Univ Ryukyus,1975,22:1-57.
[165] Singh M, Brown G. Suppression of cytoplasmic male sterility by nuclear genes altersexpression of a novel mitochondrial gene region[J]. Plant Cell,1991,3:1349-1362.
[166] Tan X L, Vanavichit A, Amornsilpa S, et al. Genetic analysis of rice CMS-WA fertilityrestoration based on QTL mapping[J]. Theor Appl Genet,1998,96:994-999.
[167] Tan X L, Vnavichit A, Amornsilpa S. Mapping of rice Rf gene by bulked line analysis[J].DNA RESEARCH,1998,9:15-18.
[168] Tan Y P, Li S Q, Wang L, et al. Genetic analysis of fertility-restorer genes in rice[J]. BiolPlant,2008,52(3):469-474.
[169] Tao D Y, Xu P, Li J, et al. Inheritance and mapping of male sterility restoration gene inupland japonica restorer lines[J]. Euphytica,2004,138:247-254.
[170] Tian X J, Zheng J, Hu S N, et al. The Rice Mitochondrial Genomes and Their Variations[J].Plant Physiology,2006,2(140):401-410.
[171] Virmani S S, Shinjyo C. Current status of analysis and symbols formale sterile cytoplasmsand fertility-restoring genes[J]. RGN,1988,(5):9-15.
[172] Wang N Y, Liang K J, Li Y, et al. Inheritance of Restorer Gene for CMS-FA Hybrid Rice[J].ACTA AGRONOMICA SINICA,2008,34(11):1929-1937.
[173] Wang X J, Tan X L, Shao G J, et al. Marker-Assistsed Selection of Japonica Restorers usedfor Yinshui CMS System[J]. Rice Genomics and Genetics,2012,3(4):19-24.
[174] Wang Y, Fu X M, Gao G J, et al. Improving the Grain Quality of Minghui63, a RestorerLine of Rice with Good Quality through Marker-Assisted Selection[J]. Molecular PlantBreeding,2009,7(4):661-665.
[175] Wang Z H, Zou Y J, Li X Y, et al. Cytoplasmic male sterility of rice with Boro Ⅱcytoplasm is caused by a cytotoxic peptide and is restored by two related PPR motif genesvia distinct modes of mRNA silencing[J]. Plant Cell,2006,18(3):676-687.
[176] Yao F Y, Xu C G, Yu S B, et al. Mapping and genetic anslysis of two fertility restoration lociin the wild-abortive cytoplasmic male sterility system of rice[J]. Euphytica,1997,98:183-187.
[177] Yu Z H, McCouch S R, Kinoshita T, et al. Association of morphological and RFLP markersin rice (Oryza sativa L.)[J]. Genome,1992,38:566-574.
[178] Zhang G, Bharaj T S, Lu Y, et al. Mapping of the Rf nuclear fertility-restoring gene forWA-cytoplasmic male sterility in rice using RAPD and RFLP markers[J]. Theor ApplGenet,1997,94:27-33.
[179] Zhang J W, Shi S Y, Dong W Q. The Genetic Analysis and Application of the FertilityRestoring Gene of Cytoplasmic Male Sterility in Dongxiang Wild Rice(Oryza rufipogonGriff.)[J]. Molecular Plant Breeding,2011,l9(1):25-33.
[180] Zhang X X, Zhou K R, Tang J, et al. Analysis of Heading Time Gene and Gene LociInteractive Effect in Gui99, a Restorer Line of Hybrid Rice (Oryza Sativa L.)[J].ACTAAGONOMICA SINACA,2006,32(6):833-839.
[181] Zhou H P, Zhan X D, Cai R Y, et al. Breeding of Rice Restorer Lines Carrying BlastResistance Gene Pi25by Marker-Assisted Selection[J]. Chinese J RiceSci,2008,22(6):590-596.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |