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1.
通过对在套袋繁殖产生的滇Ⅰ型不育系合系42A群体中发现的可育株、及其与不育系杂交产生的F1和可育株自交S1代的育性和核恢复基因位点分析,发现不育系合系42A中出现的大约0.11%可育株包括两种类型。一类细胞质正常可育,核无恢复基因,基因型为N(rf/rf),类似保持系,认为是保持系混杂所致。另一类可育株的细胞质雄性不育,核有恢复基因,其恢复基因位于水稻Rf-1基因区域,基因型为S(Rf/rf)。这类可育株不可能来自异品种或保持系串粉,可能是细胞核携带的育性相关基因发生育性自然回复突变导致。本研究将这类可育株简称为“育性回复株”。  相似文献   

2.
魏亦勤  李红霞  刘旺清  张双喜  裘敏  王存忠 《种子》2006,25(10):78-79,82
具有粘果山羊草和偏凸山羊草细胞质的K、Ven小麦雄性不育系与普通小麦的核质互作及细胞质的不良效应较低,在小麦杂种优势的利用上最有价值和利用前景,试验针对西北春麦区生态条件,直接引用由西北农林科技大学培育的Ven、K质113/1R易位小麦雄性不育系和保持系,利用西北春麦区现主栽或新育成的春麦品种(系)作为广泛测交的测验种,应用于春性杂种小麦。结果不育系表现育性稳定,细胞质效应小,春性较春麦品种弱,生长发育快,株高较接,丰产性较差。因此,今后生产应用应转育丰产性好的春性Ven质和K质雄性不育系及其保持系,测交筛选高恢复性恢复系。  相似文献   

3.
细胞质雄性不育在植物界普遍存在,其不育机理一直是人们研究的热点。采用花粉管通道法,利用T型细胞质雄性不育保持系75-3369B线粒体的基因文库,选取其中所载外源片段较大的重组子转化T型不育系小麦75-3369A,结果重组子ME252和ME317的转化后代变成可育,表明线粒体的部分片段可以使细胞质雄性不育系的育性发生转变。  相似文献   

4.
野生稻(O.rufipogon)新胞质改良不育系稻米品质的研究   总被引:9,自引:2,他引:9  
王乃元 《作物学报》2006,32(2):253-259
通过核置换回交,获得一种普通野生稻(O. rufipogon)雄性不育细胞质,称为FA细胞质,育成新质源不育系金农1A。研究表明,FA细胞质不育系与WA和HL不育系的恢保关系不同,野败型的保持系和恢复系、红莲型的保持系和恢复系都可以作为FA细胞质的保持系,而不能成为FA细胞质的恢复系。这是一种新发掘的水稻雄性不育细胞质源。FA细胞质突破了WA和HL细胞质恢保关系的遗传局限,扩大了保持系育种范围,可以用品质优良的栽培品种培育成优质稻米不育系。新质源不育系金农1A不育度高,不育性稳定,农艺性状优良,抗稻瘟病和白叶枯病,开花时间早,稻米12项品质指标全部达到农业部颁发的优质米一级或二级标准,实质性地提高了不育系的稻米品质和综合水平,为培育优质米杂交稻奠定良好的遗传基础。  相似文献   

5.
甘蓝型油菜细胞质雄性不育性的基因分析   总被引:6,自引:0,他引:6  
通过对384A、217A两个甘蓝型双低油菜细胞质不育系及其保持系、恢复系、杂种F1、F2及aBC1(不育系×杂种F1)、bBC1(杂种F1×保持系)等群体中植株的育性观察和分析,初步查明384A、217A均属孢子体不育。雄性不育性是由细胞质中的不育基因和细胞核中的隐性基因相互作用的结果。384A具有一对隐性不育核基因,217A具有两对隐性不育核基因,且384A的一对隐性核不育基因与217A的任何一对隐性不育核基因不存在等位关系。384A的基因型为S(r1r1),217A的基因型为S(r2r2r3r3)。  相似文献   

6.
在杂交小麦选育中,为了更好地利用细胞质雄性不育性,研究与不断挖掘新的不育细胞质类型及其对应育性恢复基因以改良现有不育资源至关重要.基于这一目的,本文对具有山羊草属细胞质的四类不育系线粒体DNA(mtDNA)进行了RAPD分析,分别比较了具有同一细胞质背景的山羊草、雄性不育系,以及该类不育系与恢复系组配的可育杂种F1的mtDNA的变异性.结果显示,供试山羊草与其对应细胞质雄性不育系在mtDNA上存在明显多态性,表明不育系在质核互作的影响下很可能已导致mtDNA发生变异:而不育系与对应的可育杂种F1在mtDNA上也存在多态性,同样表明育性恢复核基因对不育系进行育性恢复的过程中亦可能引起mtDNA发生相应变异;mtDNA变异很可能涉及到不育系育性本质的改变.  相似文献   

7.
国内棉花雄性不育性研究现状、问题、对策   总被引:3,自引:0,他引:3  
吕有军  付亮  王彩霞  张爱芹 《种子》2005,24(1):44-49
杂种优势是提高棉花产量和品质的重要途径.本文就棉花杂种优势利用的现状作了介绍,分别介绍了单隐性核不育和重叠隐性核不育、细胞质雄性不育系的研究及利用现状,并提出,细胞质雄性不育系的研究利用是解决棉花杂种优势面临问题的重要途径.  相似文献   

8.
雄性不育系“NEWFREE”的特点及其在观赏向日葵中的利用   总被引:2,自引:0,他引:2  
刘公社  徐夙侠  刘小丽 《作物学报》2006,32(11):1752-1755
雄性不育(male sterility)是向日葵杂种优势利用的重要途径。目前,全世界均是利用细胞质雄性不育性生产商用杂交种,因此,向日葵雄性不育性的发现和利用是育种学家们研究的重要课题。本研究采用了不同地理来源的20份自交系材料作育性试验,结果表明, “NEWFREE”雄性不育系具有与PET1完全不同的恢复系和保持系,很可能是  相似文献   

9.
为解决乌塌菜杂种优势利用中的杂交制种手段问题。以复等位基因遗传的小白菜核基因雄性不育系作不育源,采用杂交一代连续与乌塌菜轮回亲本回交,同时测交筛选基因型的方法,选育乌塌菜核基因雄性不育系。育成了具有100%不育株率和100%不育度,园艺学性状与目标品系相似的乌塌菜核基因雄性不育系GMSW,利用该不育系配制并筛选出2个产量高于对照品种的优异杂交组合GMSW×A2、GMSW×A1。解决了乌塌菜雄性不育系转育和利用的难题。  相似文献   

10.
玉米细胞核雄性不育基因利用新途径   总被引:1,自引:0,他引:1  
通过对作物雄性不育的细胞质和细胞核基因利用对比分析,研究雄花小穗退化型玉米温光敏核不育两用系雄花小穗退化现象表现的新特征特性,以及其与有小穗型不育系比较的各种优点,认为雄花小穗退化型玉米温光敏核不育系的选育为玉米细胞核雄性不育基因的利用开辟了新的途径,其有关遗传研究将为玉米由三系法育种向二系法育种过度奠定了理论基础。  相似文献   

11.
通过遗传工程能够产生由两个基因共同作用而形成的雄性不育。一个可以是能够导致雄性不育的基因,另一个可以是该雄性不育基因的活化基因,它们共同存在的时候表现雄性不育。利用位点特异性重组和转基因技术能够将这两个基因安排在植物同源染色体的相同位置上表达,成为等位基因,而获得分别只具有其中一个基因的两转基因系。它们之间杂交,F1中两个基因同时存在,F1产生雄性不育而成为不育系。常规品系与此F1不育系杂交,在杂种植株中,这两个基因不能同时存在,所有植株育性恢复。利用光温敏核不育性,化学杀雄和人工去雄可解决此不育系繁殖问题。该雄性不育性利用方式优越,育种简便易行,能够满足对最佳组合选育的要求,且能够定向培育目标杂交组合。  相似文献   

12.
Anther culture was applied as a method to develop the essential components of a cytoplasmic male sterility hybrid system in rye (Secale cereale L.). These components are the male sterile seed parent (A line), its isogenic maintainer counterpart (B line) and the restorer pollen parent (R line). Australian rye cultivars were crossed reciprocally to the cultivar ‘Luchs’ which carries the Pampa male sterile cytoplasm (cms-P). Anthers of the F1s in the cms-P cytoplasm (primary cross) and their reciprocals in the normal cytoplasm (reciprocal cross) were cultured in a modified C17 medium. Male sterile and male fertile doubled haploids were obtained from the anther culture of the F1s in the cms-P cytoplasm. Testcrosses indicated that the male sterile doubled haploids were A lines and the male fertile doubled haploids were R lines (restorers). The anther culture of genotypes in the normal cytoplasm (reciprocal cross) gave all male fertile doubled haploids. Testcrosses indicated that the male fertile doubled haploids were R lines (restorers) in the normal cytoplasm. The expected maintainer B lines were not identified because of the limited number of doubled haploids obtained from the anther culture of reciprocal crosses. Experimental single cross hybrids between male sterile and restorer male fertile doubled haploids showed high levels of heterosis. The results of this study have significant economic implications especially in the production of hybrids in several species. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

13.
王乃元  梁康迳  李毓  王颖  王洪飞  仇秀丽 《作物学报》2008,34(11):1929-1937
发掘水稻新型雄性不育细胞质源CMS-FA,育成系列优质米不育系和系列新质源恢复系,组配成强优势杂交稻组合的基础上研究新质源雄性不育恢复系的恢复基因遗传。采用新质源(CMS-FA)不育系金农1A与恢复系金恢3号杂交获得杂交F1代种子,种植F1代,收获自交F2代种子。用F1分别与不育系或保持系回交,获得(不育系//不育系/恢复系和不育系/恢复系//保持系)2个测交群体。同时种植P1、P2、F1、F2、B1F1和B2F1等群体,考察花粉染色率、套袋结实率和自然结实率,卡平方测验遗传分离适合度。结果表明,不育系与恢复系杂交F1代正常可育,育性恢复(可育)基因为显性遗传。F2代分离出可育︰不育适合3︰1,育性恢复(可育)基因为1对显性基因控制。B1F1和B2F1代2个测交群体的可育︰不育都适合1︰1分离规律,验证了F2代育性恢复(可育)单基因的遗传模式。暂时确定新质源(CMS-FA)核质互作三系的基因型为不育系S(SS)、保持系F(SS)和恢复系S(FF)。  相似文献   

14.
The photoperiod/temperature-sensitive genic male sterile (P/TGMS) character is important for use of heterosis in hybrid wheat. In the present study, the fertility of 172 doubled haploid (DH) lines derived from the cross between a P/TGMS wheat line BS366 and a restorer wheat line Baiyu149 was investigated under both fertile and sterile environments during three cropping seasons. The phenotype was recorded based on the international seed setting rate. A total of 167 SSR and 1,278 SNP markers were used to construct a linkage map, with a total length of 3,748.94 cM and an average marker interval of 2.59 cM. Three QTLs were identified and designated as QF.bhw-2DS, QF.bhw-4BS and QF.bhw-7Al, explaining 6.9%–12.8%, 19.7%–25.6% and 7.2%–8.8% of the phenotypic variances, respectively. These results lay a good basis for application of male sterility-related molecular markers in improvement of two-line hybrid wheat breeding system.  相似文献   

15.
‘Ogura radish’, a cytoplasmic genetic male sterile line, was crossed with four local and three Japanese cultivars to identify maintainer lines. Out of seven F1 families, one cross involving a local cultivar, Aushi, produced 100% male sterile (MS) progeny. The crosses involving the other two local cultivars, Tangail Local and Kuni, produced about 90% MS progeny, indicating the presence of maintainer gene(s) for male sterility. The fourth local cultivar, Tasaki, produced 100% male fertile (MF) progeny. All three exotic cultivars appeared to possess the chromosomal gene(s) for controlling the male sterility. In BC1, BC2 and BC3 generations, segregation of MS plants were more frequent when ‘Aushi’ was used as recurrent parent. The expression of male sterility was not affected by seasonal influences. Thus the local cultivar ‘Aushi’ may be used as maintainer line for ‘Ogura radish’. To produce hybrid seed, ‘Tasaki’ can be used as pollinator line as it exhibit high heterosis with ‘Aushi’. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

16.
L. P. Ke    Y. Q. Sun    D. F. Hong    P. W. Liu  G. S. Yang 《Plant Breeding》2005,124(4):367-370
The commercial utilization of heterosis in seed yield by means of hybrid varieties is of great importance for increasing oilseed rape production in China. This requires a functional system for the production of hybrid seed. The Brassica napus oilseed rape line 9012AB is a recessive epistatic genic male sterility (GMS) two‐type line, in which the sterility is controlled by two pairs of recessive duplicate sterile genes (ms1 and ms2) interacting with one pair of a recessive epistatic inhibitor gene (rf). Homozygosity at the rf locus (rfrf) inhibits the expression of the recessive male sterility trait in homozygous ms1ms1ms2ms2 plants. This study was conducted to identify molecular markers for one of the male fertility/sterility loci in the B. napus male sterility line 9012AB. Sterile bulk (BS) and fertile bulk (BF) DNA samples prepared from male sterile and male fertile plants of the homozygous two‐type line 9012AB were subjected to amplified fragment length polymorphic (AFLP) analysis. A total of 256 primer combinations were used and seven markers tightly linked to one recessive genic male sterile gene (ms) were identified. Among them, six fragments co‐segregated with the target gene in the tested population, and the other one had a genetic distance of 4.3 cM. The markers identified in this study will greatly enhance the utilization of recessive GMS for the production of hybrid seed in B. napus oilseed rape in China.  相似文献   

17.
野生稻(Oryza rufipogon)新质源雄性不育恢复系的研究   总被引:10,自引:2,他引:8  
王乃元 《作物学报》2006,32(12):1884-1891
发掘野生稻(O. rufipogon)新型雄性不育细胞质源,育成新质源优质米不育系的基础上进一步研究新质源雄性不育恢复系的育种技术—FA型细胞质雄性不育恢复系定向育种。用野生稻(非轮回亲本)与籼稻品种明恢63(轮回亲本)杂交和多次回交,后代再经过自交,将野生稻中的可育基因分离、转移、重组、整合到明恢63遗传背景中,获得农艺性状似明恢63,花粉和小穗全可育不分离的野生稻新质源恢复系金恢1号。用新质源不育系与金恢1号组配两个组合,其花粉和小穗育性都恢复到正常可育水平,产量高,米质优,实现了新质源不育系三系配套应用和大幅度提高杂交稻稻米外观品质的目的。这项育种新技术可以将水稻可育基因(恢复基因)转移到任一水稻品种中育成细胞质雄性不育恢复系,突破了新质源恢复系育种的技术瓶颈,极大地提高了恢复系利用稻种资源的育种潜力,为FA型新质源优质米不育系的杂交稻育种开辟了一条崭新的途径。新型(FA)细胞质源杂交稻可能对丰富杂交稻细胞质遗传多样性、提高杂交稻亲本对稻种资源的利用潜力、以及实质性提高杂交稻的稻米品质和产量水平都将产生积极和深远的影响。  相似文献   

18.
细胞质雄性不育海岛棉与陆地棉三交种的杂种优势表现   总被引:2,自引:0,他引:2  
 以海岛棉和陆地棉不育系及其恢复系为杂交亲本,配制了10个海岛棉与陆地棉种间三交种(简称海陆三交种)和4个单交种。经两年田间试验表明,海陆三交种相对于海海单交种产量极显著提高,与海陆单交种无显著差异,但比陆陆单交种显著减产;纤维品质接近于海陆单交种,显著高于陆陆单交种;制种产量虽然不及陆陆单交种,但比海海单交种显著增产。选育海陆三交种应注重选择早熟的海岛棉不育系,高衣分的陆地棉临时保持系,大铃的陆地棉恢复系,且叶型和株型相对一致的亲本配制组合。  相似文献   

19.
根据"复等位基因遗传假说",以甲型两用系AB12为不育源(直筒生态型),采用杂交、自交、兄妹交的方法,将核不育基因向娃娃菜可育品系06006中转育,获得了不育株率100%的新核基因雄性不育系,扩大了原有不育系的遗传基础,拓宽了该优良雄性不育基因的应用范围.  相似文献   

20.
带遗传标记的玉米基因雄性不育的发现及遗传和利用研究   总被引:4,自引:0,他引:4  
1992年在玉米族远缘杂交组合3402F3(丹340×403-2)中首次发现带标记性状的基因雄性不育(GMS)材料。 遗传分析结果表明, 不育性受一对隐性基因控制。 当不育株(A)与可育株(B)进行兄妹交, 育性分离比例接近1∶1; 而可育株(B)自交的后代, 可育株与不育株的分离比例为3∶1。 连锁遗传分析结果证明, 不育基因(ms°)与标记性状  相似文献   

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