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1.
小麦条锈菌鉴别寄主抗条锈病基因Yr9的微卫星标记   总被引:15,自引:0,他引:15  
以含有Yr9的抗条锈病近等基因系Taichung29*6/Yr9及其轮回亲本Taichung29为材料,用目的基因所在1B染色体上32对微卫星引物对其基因组DNA进行PCR扩增,发现引物Xgwm582在近等基因系与轮回亲本间可扩增出特异性DNA片段。经F2代分离群体177个抗、感单株检测证实,该片段位点与抗条锈病基因Yr9紧密连锁,遗传距离为3.7cM,确定Xgwm582可作为抗条锈病基因Yr9的标记。  相似文献   

2.
小麦品种Triticum spelta album中抗条锈病基因Yr5的RAPD标记   总被引:15,自引:1,他引:15  
共用520个10碱基随机引物对小麦抗条锈基因Yr5的近等基因系进行了RAPD分析,发现了3个特异性DNA片段S1496、S14181950与Yr5基因连锁,其中S1496761与Yr5基因紧密连锁,遗传距离为2.7cM。经对特异性DNA片段S1496 761进行克隆,测序,设计了PCR扩增用专化引物SC-S1496 761a和SC-S149676b,用该引物可扩增出与原RAPD引物扩增出的相似的特异DNA片段,由于该引物还可扩增出迁移率极为相近的另1条非特异带,在琼脂糖凝胶上难以分辨,需用聚丙烯酰胺凝胶电泳结合银染进行检测,经用F2分离群体及部分相关品种材料检测,已证明该标记的可靠性。  相似文献   

3.
用变性PAGE-银染法鉴定小麦抗条锈基因Yr5的RAPD标记   总被引:14,自引:0,他引:14  
以小麦抗条锈病基因Yr5的供体亲本Triticumspeltaalbum作为对照 ,对近等基因系Yr5 6×AvocetS和感病亲本AvocetS进行RAPD分析。扩增产物用 4%变性PAGE分离 ,银染显色。在变性PAGE上可以检测到 50~ 10 0条带 ,是琼脂糖凝胶电泳的 5倍以上。筛选了 2 40个随机引物 ,发现 2 3条稳定的多态性DNA片段 ,初步检测表明其中6条与Yr5基因具有连锁性。用 12 1株AvocetS和Yr5 6×AvocetS杂交制备的F2 代分离群体进一步进行的遗传连锁性检测表明 ,多态性DNA片段S13 2 0 2 0 7和S13 4 83 6 3 分别与Yr5基因完全连锁和紧密连锁。结果表明 ,用变性PAGE分离PCR产物并结合银染显色 ,提高了小麦RAPD分析的多态性水平 ,改善了实验的重复性  相似文献   

4.
小麦抗条锈病基因定位及分子标记研究进展   总被引:21,自引:0,他引:21  
本文综述了小麦抗条锈病基因染色体定位及抗条锈病基因分子标记的研究进展,并对几种分子标记技术的应用潜力作了比较分析,特别是对SSR、ISSR、AFLP等新型分子标记在小麦遗传育种中的应用前景作了初步探讨。  相似文献   

5.
H9020—17—5是一个通过杂交和回交选育的普通小麦—华山新麦草易位系,接种鉴定表明其对条锈病具有优良抗性。遗传学分析证明易位系H9020—17—5的抗条锈性是由单基因控制的显性性状,抗性基因来自于华山新麦草,暂定名为YrHua。为了标记这个来自华山新麦草的抗条锈病基因,利用H9020—17—5与感病小麦品种铭贤169杂交,建立了F2分离群体。应用81对AFLP引物对119个经条锈菌生理小种CY30接种鉴定的F2单株进行了分析,结果得到两个与YrHua基因连锁的AFLP标记PM14(301)和PM42(249),遗传距离分别为5.4cM和2.7cM,并分别位于目标基因的两侧。将标记片段克隆、测序后,根据序列信息和酶切位点多态性设计特异性引物,将AFLP标记PM14(301)转换成了简单的PCR标记。研究结果为标记辅助育种提供了分子选择工具,同时也为进一步精细定位和图位克隆YrHua基因奠定了基础。  相似文献   

6.
小麦白粉病抗性基因的聚合及其分子标记辅助选择   总被引:43,自引:0,他引:43  
采用了在早代进行抗性鉴定、淘汰感病株、保留抗病株继续种植、较晚世代(F4代)进行抗性鉴定结合分子标记辅助选择的策略,提高了选到聚合抗性植株的效率。利用与Pm2、Pm4α、Pm8、Pm21紧密连锁或共分离的RFLP标记和PCR标记(SCAR标记),对含有这些基因的优良品系间配制的杂交组合的F4代进行了分子标记辅助育种选择,并结合抗性鉴定,筛选到14株Pm4α Pm2I的植株,16株Pm2 Pm4α的植株,6株Pm8 Pm21的植株。应该引起注意的是,Pm2 Pm4α对混合白粉病菌的抗性达到高抗至免疫水平,而Pm2和Pm4α单独存在时抗性较差,表明聚合抗病基因植株的抗性提高了,为培育具有持久性抗性的品系或品种提供了新思路,它在实践和理论研究上都将具有重要意义。  相似文献   

7.
5R618是高抗叶锈病小麦品系。为了确定该品系所携带的抗叶锈基因,以5R618与感病小麦品种郑州5389杂交获得F1,自交获得F2分离群体以及F2∶3家系,用叶锈菌生理小种THJP对亲本、F2分离群体以及F2∶3家系进行叶锈抗性鉴定,然后进行分子标记分析。结果显示,5R618对生理小种THJP的抗病性由1对显性基因控制,该基因暂命名为Lr5R。经过亲本和抗感池间分子标记筛选以及F2∶3家系的标记检测,Lr5R定位于染色体3DL上,barc71和STS24-16是Lr5R最近的2个标记,遗传距离分别为0.9 c M和2.1 c M。  相似文献   

8.
青海省小麦品种中Yr10和Yr15基因及其1BL/1RS易位的分子检测   总被引:2,自引:0,他引:2  
利用抗条锈病基因Yr10和Yr15的SCAR和Barc8标记以及1BL/1RS易位的复合标记,对青海省育成和引进的137份小麦品种进行检测,以明确Yr10和Yr15基因以及1BL/1RS易位在青海小麦品种资源中的分布.结果显示:在137份材料中,有4份检测到Yr10基因,19份检测到Yr15基因,分别占参试材料的2.9%和13.9%,没有检测到同时携带Yr10和Yr15基因的材料;有22份材料为1BL/1RS易位,占参试材料的16.1%.研究表明,青海省大部分小麦抗锈品种及1BL/1RS易位品种为外引种品种.  相似文献   

9.
小麦抗白粉病基因定位与分子标记   总被引:5,自引:0,他引:5  
对小麦抗白粉病基因的遗传定位与分子标记进行了综述,介绍了小麦抗白粉病的遗传,并对今后的研究方向进行了讨论。  相似文献   

10.
DNA分子标记在小麦抗条锈性遗传研究中的应用   总被引:4,自引:1,他引:4  
综述了近年来DNA分子标记在小麦抗条锈性遗传研究中的应用现状和潜力。内容涉及DNA分子标记在基因标记,基因克隆,遗传图谱构建和辅助选择育种等方面的应用,并列举了代表性实例,展望了DNA分子标记技术在小麦抗条锈病研究上的前景。  相似文献   

11.
 The Yr15 gene of wheat confers resistance to the stripe rust pathogen Puccinia striiformis West., which is one of the most devastating diseases of wheat throughout the world. In the present study, molecular markers flanking the Yr15 gene of wheat have been identified using the near-isogenic-lines approach. RFLP screening of 76 probe-enzyme combinations revealed one polymorphic marker (Nor/TaqI) between the susceptible and the resistant lines. In addition, out of 340 RAPD primers tested, six produced polymorphic RAPD bands between the susceptible and the resistant lines. The genetic linkage of the polymorphic markers was tested on segregating F2 population (123 plants) derived from crosses between stripe rust-susceptible Triticum durum wheat, cv D447, and a BC3F9 resistant line carrying Yr15 in a D447 background. A 2.8-kb fragment produced by the Nor RFLP probe and a 1420-bp PCR product generated by the RAPD primer OPB13 showed linkage, in coupling, with the Yr15 gene. Employing the standard maximum-likelihood technique it was found that the order OPB13 1420 Yr15Nor1 on chromosome 1B appeared to be no less than 1000-times more probable than the closest alternative. The map distances between OPB13 1420 Yr15Nor1 are 27.1 cM and 11.0 cM for the first and second intervals, respectively. The application of marker-assisted selection for the breeding of new wheat cultivars with the stripe rust resistance gene is discussed. Received: 27 February 1997/Accepted: 7 March 1997  相似文献   

12.
Wheat stripe rust is a devastating disease in many regions of the world. In wheat, 49 resistance genes for stripe rust have been officially documented, but only three genes are cloned, including the race-specific resistance Yr10 candidate gene (Yr10CG) and slow-rusting genes Lr34/Yr18 (hereafter designated as Yr18) and Yr36. In this study, we developed gene-specific markers for these genes and used them to screen a collection of 659 wheat accessions, including 485 Chinese cultivars. Thirteen percent and eleven percent of the tested Chinese cultivars were positive for the markers for Yr10CG and Yr18RH (the resistant haplotype of Yr18), respectively, but none were positive for the Yr36 marker. Since there is a limited use of the Yr10 gene in Chinese wheat, the relatively high frequency of wheat varieties with the Yr10CG marker suggests that the identity of the Yr10 gene is unknown. With regards to the Yr18 gene, 29% of the tested cultivars that are used in the Middle and Lower Yangtze Valleys' winter wheat zone were positive for Yr18RH markers. A non-functional allele of Yr18RH was identified in ‘Mingxian 169’, a commonly used susceptible check for studying stripe rust. The data presented here will provide useful information for marker-assisted selection for wheat stripe rust resistance.  相似文献   

13.
The leaf rust resistance gene Lr47 confers resistance to a wide spectrum of leaf rust strains. This gene was recently transferred from chromosome 7S of Triticum speltoides to chromosome 7A of hexaploid wheat Triticum aestivum. To facilitate the transfer of Lr47 to commercial varieties, the completely linked restriction fragment length polymorphism (RFLP) locus Xabc465 was converted into a PCR-based marker. Barley clone ABC465 is orthologous to the type-I wheat sucrose synthase gene and primers were designed for the conserved regions between the two sequences. These conserved primers were used to amplify, clone and sequence different alleles from T. speltoides and T. aestivum. This sequence information was used to identify the T. speltoides sequence, detect allele-specific mutations, and design specific primers. Cosegregation of the PCR product of these primers and the T. speltoides chromosome segment was confirmed in four backcross-populations. To complement this dominant marker, a cleavage amplified polymorphic sequence (CAPS) was developed for the 7A allele of Xabc465. This CAPS marker is useful to select homozygous Lr47 plants from F2 or backcross-F2 segregating populations, and in combination with the T- speltoides specific primers is expected to facilitate the deployment of Lr47 in new bread wheat varieties. Received: 11 October 1999 / Accepted: 30 December 1999  相似文献   

14.
小麦品种贵农22号抗条锈基因遗传分析   总被引:7,自引:0,他引:7  
贵农22号是利用簇毛麦(Haynaldia villosa)、硬粒小麦(Triticum durum)及普通小麦(Triticum aestuvum)杂交而育成的普通小麦品种,其抗中国目前流行和出现的条锈菌小种,已成为目前重要的抗小麦条锈病抗源。为了明确该品种抗锈遗传规律并进行应用前景评价,用一个流行的强毒性小种条中31号和一个突变弱毒性小种CY29-mut3,分别接种贵农22与国际已知抗锈基因品种Moro及感病品种辉县红双列杂交F2、F2代各株系幼苗,对贵农22号进行了抗锈性遗传分析,以便于在抗病育种中进一步应用。研究结果表明,贵农22号有三对独立遗传的抗条锈基因,暂定名为YrGui 1、YrGui 2和YrGui 3,它们表达稳定,不受亲本正反交影响,而并不具有Yr 10。Yr10基因载体品种Moto中有二或四对基因抗中国不同的条锈菌小种,不同小种及正反交对基因的表达有影响,为父本时其对CY29-mut3小种有两对完全显性基因、一对中度抗病基因及一对隐性抗病基因,而为母本时有一对完全显性基因和一对中度抗病基因起抗病作用;对条中31号,其为父本时有一对显性基因和一对隐性基因,为母本时可能存在两对累加作用基因或两对隐性抗病基因控制抗痫作用。  相似文献   

15.
The Yr17 gene, which is present in many European wheat cultivars, displays yellow rust resistance at the seedling stage. The gene introduced into chromosome 2A from Aegilops ventricosa was previously found to be closely linked (0.5 cM) to leaf and stem rust resistance genes Lr37 and Sr38, respectively. The objective of this study was to identify molecular markers linked to the Yr17 gene. We screened with RAPD primers, for polymorphism, the DNAs of cv. Thatcher and the leaf rust-resistant near-isogenic line (NIL) RL 6081 of cv. Thatcher carrying the Lr37 gene. Using a F2 progeny of the cross between VPM1 (resistant) and Thésée (susceptible), the RAPD marker OP-Y15580 was found to be closely linked to the Yr17 gene. We converted the OP- Y15580 RAPD marker into a sequence characterized amplified region (SCAR). This SCAR marker (SC-Y15) was linked at 0.8 ± 0.7 cM to the Yr17 resistance gene. We tested the SC-Y15 marker over a survey of 37 wheat cultivars in order to verify its consistency in different genetic backgrounds and to explain the resistance of some cultivars against yellow rust. Moreover, we showed that the Xpsr150-2Mv locus marker of Lr gene described by Bonhomme et al. [6] which possesses A. ventricosa introgression on the 2A chromosome was also closely linked to the Yr17 gene. Both the SCAR SC-Y15 and Xpsr150-2Mv markers should be used in breeding programmes in order to detect the cluster of the three genes Yr17, Lr37 and Sr38 in cross progenies. This revised version was published online in June 2006 with corrections to the Cover Date.  相似文献   

16.
 We used graphical genotyping and linkage analyses with molecular markers to determine the chromosomal location of the rice stripe disease resistance gene, Stv-b i . The stripe resistance gene from the indica rice (Oryza sativa) cv ‘Modan’ was introgressed into several Japanese rice varieties. We found 4 RFLP markers in ‘Modan’, five susceptible parental rice varieties (‘Norin No. 8’, ‘Sachihikari’, ‘Kanto No. 98’, ‘Hokuriku No.103’ and ‘Koganebare’) and four resistant progeny varieties (‘St. No. 1’, ‘Aichi No. 6’, ‘Aoisora’ and ‘Asanohikari’). Graphical genotyping of the resistant progeny revealed a chromosomal segment ascribable to ‘Modan’ and associated with stripe resistance. The chromosomal segment from ‘Modan’ was located at 35.85 cM on chromosome 11. Linkage analysis using 120 F2 individuals from a cross between ‘Koshihikari’ (susceptible) and ‘Asanohikari’ (resistant) revealed another 8 RFLP markers in the same chromosome. We performed a bioassay for rice stripe resistance in F3 lines of the F2 individuals using infective small brown planthoppers and identified an 1.8-cM segment harboring the rice stripe disease resistance gene, Stv-b i , between XNpb220 and XNpb257/ XNpb254. Furthermore, Stv-b i was linked by 0.0 cM to a RFLP marker, ST10, which was developed on the basis of the results of RAPD analysis. These DNA markers near the Stv-b i locus may be useful in marker-assisted selection and map-based cloning of the Stv-b i gene. Received: 26 September 1997 / Accepted: 4 November 1997  相似文献   

17.
Development of PCR markers for the wheat leaf rust resistance gene Lr47   总被引:3,自引:0,他引:3  
The leaf rust resistance gene Lr47 confers resistance to a wide spectrum of leaf rust strains. This gene was recently transferred from chromosome 7 S of Triticum speltoides to chromosome 7 A of hexaploid wheat Triticum aestivum. To facilitate the transfer of Lr47 to commercial varieties, the completely linked restriction fragment length polymorphism (RFLP) locus Xabc465 was converted into a PCR-based marker. Barley clone ABC465 is orthologous to the type-I wheat sucrose synthase gene and primers were designed for the conserved regions between the two sequences. These conserved primers were used to amplify, clone and sequence different alleles from T. speltoides and T. aestivum. This sequence information was then used to identify the T. speltoides sequence, detect allele-specific mutations, and design specific primers. Cosegregation of the PCR product of these primers and the T. speltoides chromosome segment was confirmed in four backcross-populations. To complement this dominant marker, a cleavage amplified polymorphic sequence (CAPS) was developed for the 7 A allele of Xabc465. This CAPS marker is useful to select homozygous Lr47 plants from F2or backcross-F2 segregating populations, and in combination with the T. speltoides-specific primers is expected to facilitate the deployment of Lr47 in new bread wheat varieties. Received: 7 June 1999 / Accepted: 30 September 1999  相似文献   

18.
测定了小麦(Triticum aestivum L.)感染小麦条锈病后的光合常数,以及叶绿素含量、类囊体膜光合电子传递速率和光合反应中心D1蛋白的变化.实验显示,条锈病侵染导致感病小麦叶片净光合速率与叶绿素含量降低;抗病小麦经侵染后净光合速率却有恢复过程,叶绿素含量先降后升.此外,感病小麦叶片被侵染后全链电子传递速率受到抑制,PSII电子传递速率的变化与全链电子传递速率的变化趋势相似,但PSI电子传递速率受到的影响较小;抗病小麦小麦叶片被侵染后电子传递速率所受影响较小.同时发现,病程中,感病和抗病小麦PSII的光合反应中心D1蛋白含量变化总是与PSII电子传递速率的变化类似,推测D1蛋白的表达量变化是引起PSII电子传递活性与全链电子传递速率变化的主要因素之一.  相似文献   

19.
The gene Yr26 confers resistance to all races of Puccinia striiformis f. sp. tritici (PST), the casual pathogen of wheat stripe rust in China. Here, we report development of a molecular marker closely linked to Yr26 using a resistance gene-analog polymorphism (RGAP) technique. A total of 787 F2 plants and 165 F3 lines derived from the cross Chuanmai 42/Taichung 29 were used for linkage analysis. Eighteen near-isogenic lines (NILs) and 18 Chinese wheat cultivars and advanced lines with different genes for stripe rust resistance were employed for the validation of STS markers. A total of 1,711 RGAP primer combinations were used to test the parents and resistant and susceptible bulks. Five polymorphic RGAP markers were used for genotyping all F2 plants. Linkage analysis showed that the five RGAP markers were closely linked to Yr26 with genetic distances ranging from 0.5 to 2.9 cM. These markers were then converted into STS markers, one, CYS-5, of which was located 0.5 cM to Yr26 and was closely associated with the resistance gene when validated over 18 NILs and 18 Chinese wheat cultivars and lines. The results indicated that CYS-5 can be used in marker-assisted selection targeted at pyramiding Yr26 and other genes for stripe rust resistance.  相似文献   

20.
The identification and location of sources of genetic resistance to plant diseases are important contributions to the development of resistant varieties. The combination of different sources and types of resistance in the same genotype should assist in the development of durably resistant varieties. Using a doubled haploid (DH), mapping population of barley, we mapped a qualitative resistance gene (Rpsx) to barley stripe rust in the accession CI10587 (PI 243183) to the long arm of chromosome 1(7H). We combined the Rpsx gene, through a series of crosses, with three mapped and validated barley stripe rust resistance QTL alleles located on chromosomes 4(4H) (QTL4), 5(1H) (QTL5), and 7(5H) (QTL7). Three different barley DH populations were developed from these crosses, two combining Rpsx with QTL4 and QTL7, and the third combining Rpsx with QTL5. Disease severity testing in four environments and QTL mapping analyses confirmed the effects and locations of Rpsx, QTL4, and QTL5, thereby validating the original estimates of QTL location and effect. QTL alleles on chromosomes 4(4H) and 5(1H) were effective in decreasing disease severity in the absence of the resistance allele at Rpsx. Quantitative resistance effects were mainly additive, although magnitude interactions were detected. Our results indicate that combining qualitative and quantitative resistance in the same genotype is feasible. However, the durability of such resistance pyramids will require challenge from virulent isolates, which currently are not reported in North America.Communicated by J.W. SnapeOregon Agricultural Experiment Station paper No. 11953  相似文献   

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