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1.
以“元莜麦”和“555”杂交得到的281个F2单株为作图群体,利用20对AFLP引物、3对SSR引物和1个穗型性状构建了一张大粒裸燕麦遗传连锁图。该图谱全长1544.8cM,包含19个连锁群,其上分布有92个AFLP标记、3个SSR标记和1个穗型形态标记,不同连锁群标记数为2-14个,长度在23.7-276.3cM之间,平均长度为81.3cM,标记间平均距离为20.1cM。穗型标记分离比符合3:1,11个AFLP标记表现为偏分离,偏分离比为11.5%。该图谱符合遗传连锁框架图的要求,为今后大粒裸燕麦的QTL定位、分子标记辅助育种和比较基因组学等研究奠定基础。  相似文献   

2.
甘蓝型油菜花瓣缺失基因的图谱定位   总被引:4,自引:1,他引:3  
在无花瓣品系APT02和正常有花瓣品种中双4号构建的的F2分离群体中,运用AFLP和SRAP两种标记技术对甘蓝型油菜花瓣缺失基因进行分子标记和图谱定位。在两亲本间筛选20对AFLP引物和170对SRAP 引物,进一步通过BSA法筛选,获得了与甘蓝型油菜花瓣缺失基因WHB连锁的1个SRAP标记e8m3_4(600bp)和1个AFLP标记E3247_15(150bp),标记与基因WHB之间的遗传距离分别为5 cM和13.5cM;构建了一个甘蓝型油菜(Brassica napus.L )的分子标记遗传连锁图谱,该图谱共包含213个AFLP标记、56个SRAP标记和1个形态标记,分布于17个主要连锁群、两个三联体和4个连锁对中,遗传图距总长2487.1cM,标记间平均距离为10.09 cM。通过图谱定位,控制花瓣缺失性状的基因WHB被定位到第4连锁群(LG4)上。  相似文献   

3.
陆光远  杨光圣  傅廷栋 《遗传学报》2004,31(11):1309-1315
在显性细胞核雄性不育系Rs1046A和双低油菜品种Samourai构建的回交分离群体中,运用AFLP和SSR两种标记技术构建了一个甘蓝型油菜(Brassica napus L.)的分子标记遗传连锁图谱。该图谱共包含138个AFL.P标记、83个SSR标记和1个形态标记,分布于18个主要连锁群、2个三联体和1个连锁对上,图谱总长度为2646cM,偏分离标记的比例为11.7%。显性细胞核雄性不育基因Ms被定位到第10连锁群(LG10)上。同时,偏分离标记聚集于第8连锁群(LG8)和第16连锁群(LGl6)的末端,形成了十分明显的偏分离标记密集区域。研究结果对于油菜核不育两型系的分子标记辅助选择育种具有重要意义,同时也为克隆和分离核不育基因以及研究核不育的分子机理打下了良好的基础。  相似文献   

4.
梨分子遗传图谱构建及生长性状的QTL分析   总被引:11,自引:1,他引:10  
利用鸭梨和京白梨杂交得到的F1(145株)实生苗为作图群体,通过对AFLP和SSR两种分子标记的遗传连锁分析,应用Joinmap 3.0作图软件,368个AFLP标记、34个SSR标记构建了分属18个连锁群的梨分子遗传连锁图谱,各连锁群的LOD值在4.0~7.0范围之间,图谱总长度覆盖梨基因组1395.9cM,平均图距为3.8cM.采用区间作图法,对该群体与生长性状相关的调查数据进行QTL分析,检测到与新梢生长量、新梢茎粗、节间长度、节间数量、树干径、树高及皮孔密度7个农艺性状连锁的QTL位点35个,其中主效QTL位点11个(LOD≥3.5).与生长性状相关的农艺性状QTL位点多集中在LG16连锁群上.  相似文献   

5.
''百农64''×''京双16''小麦遗传连锁图谱构建   总被引:7,自引:0,他引:7  
通过对小麦品种‘百农64’ב京双16’F3家系群体的SSR和AFLP分析,构建了含100个SSR标记(91个引物)和58个AFLP标记(12个引物)的小麦遗传连锁图,158个标记组成20个连锁群,覆盖小麦基因组3 114cM,标记间平均间距为19.7 cM.将前人未定位的12个SSR标记定位到了小麦遗传连锁图谱上.为小麦慢白粉病性等农艺性状的QTL分析打下了良好基础.  相似文献   

6.
用AFLP标记快速构建遗传连锁图谱并定位一个新基因tms5   总被引:4,自引:0,他引:4  
报导了一个分子标记连锁图的快速构建方法。通过对水稻(Oryza sativa L.)“安农S-1”和“南京11”的F2分离群体的AFLP分析找到了142个AFLP标记,用这142个AFLP标记以及已定位的25个SSR标记和5个RFIP标记构建了水稻12个染色体的分子标记连锁图,该图覆盖水稻基因组的1537.4cM,相邻标记间的平均间距为9.0cM,这是在国内建立的第一张AFLP标记连锁图。在建立连锁图谱的同时把一个新基因tms5(水稻温敏核不育基因)定位在第2染色体上。  相似文献   

7.
梨遗传连锁图谱的构建及其与苹果图谱的比较   总被引:1,自引:0,他引:1  
以‘丰水’为母本、‘砀山酥梨’为父本杂交所得的F1代104株单体为作图群体,利用SSR分子标记进行遗传连锁分析,应用Jionmap 3.0作图软件,构建了一张包含104个SSR分子标记,分属于18个连锁群的梨遗传连锁图谱,覆盖梨基因组总长831.8cM,平均图距为8.0cM。根据定位到该图谱上的SSR标记与苹果‘Fiesta’图谱进行比较,25个共有的SSR标记将该图谱和苹果图谱各连锁群连接起来,这些标记不仅呈现良好的共线性而且它们之间的相对遗传距离也很相近。研究认为,SSR标记作为锚定引物,可以与不同物种的遗传图谱相比较整合,为不同物种之间遗传信息的转移提供参考依据;同时该研究为梨树相关性状的基因定位、分离以及克隆奠定了基础。  相似文献   

8.
利用杉木的F1代群体构建遗传连锁图谱   总被引:6,自引:0,他引:6  
童春发  施季森 《遗传学报》2004,31(10):1149-1156
对于杉木 1∶1分离的分子标记位点 ,提出了一种新的构建遗传连锁图谱的策略。通过二点连锁分析 ,任意两个位点的连锁相和重组率可以得到推断和估计。对于一个连锁群中的最优排序 ,采用隐马尔可夫链模型的方法进行多位点的连锁分析。该作图方法比通常林木上所用的“拟测交”作图方法更有效。采用该作图策略 ,利用句容0号无性系 (♀ )×柔叶杉 (♂ )的F1代群体的AFLP分子标记数据重建了句容 0号无性系和柔叶杉的遗传连锁图谱。在句容 0号无性系的连锁图谱中 ,有 10 1个标记分布在 11个连锁群上 ,图谱的总长度为 2 2 82 6cM ,平均图距为 2 2 6cM ,单个连锁群上最多含有 17个标记 ,最少含有 5个标记 ;在柔叶杉的连锁图谱中 ,有 94个标记分布在 11个连锁群上 ,图谱的总长度为 2 5 6 5 8cM ,平均图距为 2 7 3cM ,单个连锁群上最多含有 16个标记 ,最少含有 4个标记。构建的句容 0号无性系和柔叶杉的遗传连锁图谱比原有的图谱分别增加了 2 6个标记和 2 8个标记 ,双亲的图谱共增加了 5 4个AFLP标记 ,使图谱上的分子标记总数达到 195个 ,双亲遗传图谱的跨度均超过了 2 0 0 0cM ,基本上达到了杉木基因组的长度 ,图谱的覆盖率接近于 10 0 %。利用新的作图方法可以较大提高分子标记在图谱上的分辨率 ,得到可认为是  相似文献   

9.
以大豆品种‘合丰25’为母本,半野生大豆‘新民6号’为父本杂交得到的F2-9代122个重组自交系为试验材料,构建了含有124个SSR标记、1个EST标记、3个形态学标记的大豆遗传图谱。此图谱覆盖的基因组长度为2348.3cM.标记间平均距离为18.3cM。每个连锁群长度范围为15.1~195.9cM之间,标记数范围2—10个。本文将控制茸毛色(Pb)基因定位于LG06-C2连锁群上,与Sat_40x2的遗传距离为39.6cM;控制叶耳g(Le)、花色(4W,)基因定位于LG12-F连锁群上,它们之间的遗传距离为9.9cM,与两边的Satt348、Sat_240标记遗传距离分别为13.3cM和10.5cM。  相似文献   

10.
利用杉木的F1代群体构建遗传连锁图谱   总被引:1,自引:0,他引:1  
童春发  施季森 《遗传学报》2004,31(10):1149-1156
对于杉木11分离的分子标记位点,提出了一种新的构建遗传连锁图谱的策略.通过二点连锁分析,任意两个位点的连锁相和重组率可以得到推断和估计.对于一个连锁群中的最优排序,采用隐马尔可夫链模型的方法进行多位点的连锁分析.该作图方法比通常林木上所用的"拟测交"作图方法更有效.采用该作图策略,利用句容0号无性系(♀)×柔叶杉(♂)的F1代群体的AFLP分子标记数据重建了句容0号无性系和柔叶杉的遗传连锁图谱.在句容0号无性系的连锁图谱中,有101个标记分布在11个连锁群上,图谱的总长度为2 282.6 cM,平均图距为22.6 cM,单个连锁群上最多含有17个标记,最少含有5个标记;在柔叶杉的连锁图谱中,有94个标记分布在11个连锁群上,图谱的总长度为2 565.8 cM,平均图距为27.3 cM,单个连锁群上最多含有16个标记,最少含有4个标记.构建的句容0号无性系和柔叶杉的遗传连锁图谱比原有的图谱分别增加了26个标记和28个标记,双亲的图谱共增加了54个AFLP标记,使图谱上的分子标记总数达到195个,双亲遗传图谱的跨度均超过了2 000 cM,基本上达到了杉木基因组的长度,图谱的覆盖率接近于100%.利用新的作图方法可以较大提高分子标记在图谱上的分辨率,得到可认为是覆盖了整个基因组的遗传连锁框架图.  相似文献   

11.
A high-density genetic map with a number of anchor markers has been created to be used as a tool to dissect genetic variation in rose. Linkage maps for the diploid 94/1 population consisting of 88 individuals were constructed using a total of 520 molecular markers including AFLP, SSR, PK, RGA, RFLP, SCAR and morphological markers. Seven linkage groups, putatively corresponding to the seven haploid rose chromosomes, were identified for each parent, spanning 487 cM and 490 cM, respectively. The average length of 70 cM may cover more than 90% of the rose genome. An integrated map was constructed by incorporating the homologous parental linkage groups, resulting in seven linkage groups with a total length of 545 cM. The present linkage map is currently the most advanced map in rose with regard to marker density, genome coverage and with robust markers, giving good perspectives for QTL mapping and marker-assisted breeding in rose. The SSR markers, together with RFLP markers, provide good anchor points for future map alignment studies in rose and related species. Codominantly scored AFLP markers were helpful in the integration of the parental maps.  相似文献   

12.
We report the molecular mapping of a gene for pollen fertility in A1 (milo) type cytoplasm of sorghum using AFLP and SSR marker analysis. DNA from an F2 population comprised of 84 individuals was screened with AFLP genetic markers to detect polymorphic DNAs linked to fertility restoration. Fifteen AFLP markers were linked to fertility restoration from the initial screening with 49 unique AFLP primer combinations (+3/+3 selective bases). As many of these AFLP markers had been previously mapped to a high-density genetic map of sorghum, the target gene (rf1) could be mapped to linkage group H. Confirmation of the map location of rf1 was obtained by demonstrating that additional linkage group-H markers (SSR, STS, AFLP) were linked to fertility restoration. The closest marker, AFLP Xtxa2582, mapped within 2.4 cM of the target loci while two SSRs, Xtxp18 and Xtxp250, flanked the rf1 locus at 12 cM and 10.8 cM, respectively. The availability of molecular markers will facilitate the selection of pollen fertility restoration in sorghum inbred-line development and provide the foundation for map-based gene isolation. Received: 22 August 2000 / Accepted: 18 October 2000  相似文献   

13.
Barley stripe rust, caused by Puccinia striiformis f. sp. hordei, is one of the most important barley (Hordeum vulgare) diseases in the United States. The disease is best controlled using resistant cultivars. Barley genotype Grannenlose Zweizeilige (GZ) has a recessive gene (rpsGZ) that is effective against all races of P. striiformis f. sp. hordei identified so far in the USA. To develop a molecular map for mapping the gene, F8 recombinant inbred lines (RILs) were developed from the Steptoe X GZ cross through single-seed descent. Seedlings of the parents and RILs were evaluated for resistance to races PSH-14 and PSH-54 of P. striiformis f. sp. hordei under controlled greenhouse conditions. Genomic DNA was extracted from the parents and 182 F8 RILs and used for linkage analysis. The resistance gene analog polymorphism (RGAP) technique was used to identify molecular markers for rpsGZ. A linkage group for the gene was constructed with 12 RGAP markers, of which two markers co-segregated with the resistance locus, and two markers were closely linked to the locus with a genetic distance of 0.9 and 2.0 cM, respectively. These four markers were present only in the susceptible parent. The closest marker to the resistance allele was 11.7 cM away. Analyses of two sets of barley chromosome addition lines of wheat with the two RGAP markers that were cosegregating with the susceptibility allele showed that rpsGZ and the markers were located on the long arm of barley chromosome 4H. Further, tests with four simple sequence repeat (SSR) markers confirmed the chromosomal location of the rpsGZ gene and also integrated the RGAP markers into the known SSR-based linkage map of barley. The closest SSR marker EBmac0679 had a genetic distance of 7.5 cM with the gene in the integrated linkage map constructed with the 12 RGAP markers and 4 SSR markers. The information on chromosomal location and molecular markers for rpsGZ should be useful for incorporating this gene into commercial cultivars and combining it with other resistance genes for durable resistance.  相似文献   

14.
A genetic linkage map of apricot ( Prunus armeniaca L.) was constructed using AFLP and SSR markers. The map is based on an F(2) population (76 individuals) derived from self-pollination of an F(1) individual ('Lito') originated from a cross between 'Stark Early Orange' and 'Tyrinthos'. This family, designated as 'Lito' x 'Lito', segregated for two important agronomical traits: plum pox virus resistance (PPV) and self-incompatibility. A total of 211 markers (180 AFLPs, 29 SSRs and two agronomic traits) were assigned to 11 linkage groups covering 602 cM of the apricot genome. The average distance (cM/marker) between adjacent markers is 3.84 cM. The PPV resistance trait was mapped on linkage group G1 and the self-incompatibility trait was mapped on linkage group G6. Twenty two loci held in common with other Prunus maps allowed us to compare and establish homologies among the respective linkage groups.  相似文献   

15.
A thermo-sensitive genic male-sterile (TGMS) wheat line ( Triticum aestivum L.) BNY-S was obtained from the spontaneous mutant of BNY-F. Its fertility was decided by the temperature during the differentiation stage of the spikelets. BNY-S was completely sterile when the temperature was lower than 10 degrees C during the differentiation stage of the spikelets, but fertile when the temperature was higher than 10 degrees C. Genetic analysis indicated that the sterility of BNY-S was controlled by a single recessive gene, which was named as wtms1. An F(2) population, consisting of 3,000 individuals from the cross between BNY-S and Lankao 52-24, was used for genetic analysis and statistical analysis of the TGMS and, out of them, 158 sterile and 93 fertile extremes were present for molecular tagging and mapping of the wtms1 gene. SSR (simple sequence repeat) and AFLP (amplified fragment length polymorphism) techniques combined with BSA (bulked segregant analysis) were used to screen markers linked to the target gene. As a result, wtms1 was preliminarily mapped on chromosome 2B according to SSR analysis. In AFLP analysis, 14 polymorphic AFLP loci were identified with a linkage relation to the wtms1 gene. Then linkage analysis using the F(2) population showed that three of them, E: AAG/M: CTA(163), E: AGG/M: CTC(220) and E: ACA/M: CTA(160), were linked to the wtms1 gene relatively close to a genetic distance of 6.9 cM, 6.9 cM and 13.9 cM, respectively. Finally, the wtms1 gene was mapped between the SSR marker Xgwm 374 and the AFLP marker E: AAG/M: CTA(163) with the distance of 4.8 cM and 6.9 cM, respectively. A partial linkage map was constructed according the SSR and AFLP data.  相似文献   

16.
A genetic linkage map of tef was constructed with amplified fragment length polymorphism (AFLP) markers using F5 recombinant inbred lines (RILs) derived by single seed descent from the intraspecific cross of ’Kaye Murri’×’Fesho’. A total of 192 EcoRI/MseI primer combinations were screened for parental polymorphism. Around three polymorphic fragments per primer combination were detected, indicating a low polymorphism level in tef. Fifty primer combinations were selected to assay the mapping population, and 226 loci segregated among 85 F5 RILs. Most AFLP loci behaved as dominant markers (presence or absence of a band), but about 15% of the loci were codominant. Significant deviations from the expected Mendelian segregation ratio were observed for 26 loci. The genetic linkage map comprised 211 markers assembled into 25 linkage groups and covered 2,149 cM of genome. AFLP is an efficient marker system for mapping plant species with low polymorphism such as tef. This is the first genetic linkage map constructed for tef. It will facilitate the mapping of genes controlling agronomically important traits and cultivar improvement in tef. Received: 27 April 1998 / Accepted: 4 January 1999  相似文献   

17.
AFLP-based genetic linkage map for the red flour beetle (Tribolium castaneum)   总被引:11,自引:0,他引:11  
The red flour beetle (Tribolium castaneum) is a major pest of stored grain and grain products and a popular model species for a variety of ecological, evolutionary, and developmental biology studies. Development of a linkage map based on reproducible and highly polymorphic molecular markers would greatly facilitate research in these disciplines. We have developed a genetic linkage map using 269 amplified fragment length polymorphism (AFLP) markers. Ten previously known random amplified polymorphic DNA (RAPD) markers were used as anchor markers for linkage group assignment. The linkage map was constructed through genotyping two independent F(2) segregating populations with 48 AFLP primer combinations. Each primer combination generated an average of 4.6 AFLP markers eligible for linkage mapping. The length of the integrated map is 573 cM, giving an average marker resolution of 2.0 cM and an average physical distance per genetic distance of 350 kb/cM. A cluster of loci on linkage group 3 exhibited significant segregation distortion. We have also identified six X-linked and two Y-linked markers. Five mapped AFLP fragments were sequenced and converted to sequence-tagged site (STS) markers.  相似文献   

18.
A composite intraspecific linkage map of chickpea was developed by integrating individual maps developed from two F8:9 RIL populations with one common parent. Different molecular markers viz. RAPD, ISSR, RGA, SSR and ASAP were analyzed along with three yield related traits: double podding, seeds per pod and seed weight. A total of 273 markers and 186 RILs were used to generate the map with eight linkage groups at a LOD score of ≥3.0 and maximum recombination fraction of 0.4. The map spanned 739.6 cM with 230 markers at an average distance of 3.2 cM between markers. The predominantly used SSR markers facilitated identification of homologous linkage groups from the previously published interspecific linkage map of chickpea and confirmed conservation of the SSR markers across the two maps as well as the variation in terms of marker distance and order. The double podding gene was tagged by the markers NCPGR33 and UBC249z at 2.0 and 1.1 cM, respectively. Whereas, seeds per pod, was tagged by the markers TA2x and UBC465 at 0.1 and 1.8 cM, respectively. Eight QTLs were identified that influence seed weight. The joint map approach allowed mapping a large number of markers with a moderate coverage of the chickpea genome and few linkage gaps. P. Radhika and S.J.M. Gowda contributed equally to this study.  相似文献   

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