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1.
Xiaoli Jin Stefan Harasymow Yumiko Bonnardeaux Allen Tarr Rudi Appels Reg Lance Guoping Zhang Chengdao Li 《Journal of Cereal Science》2011,53(2):149-153
Lipoxygenase (LOX) is a key factor affecting quality of beer in terms of foam stability and flavour. Low LOX content is a desirable trait for malting quality. A doubled haploid (DH) population was made from a cross of Australian malting barley Stirling and Canadian malting barley Harrington and mapped with 513 molecular markers. The 120 DH lines with their parents were planted in field trials and the harvested grains were micro-malted for analysis of LOX content in two consecutive years. LOX content was controlled by both genetic effects and environment conditions. Three QTLs were consistently detected. One QTL flanked by the markers E6216 and SCssr03907 at the telomere region of chromosome 5HL contributed 39% of genetic variation in LOX content. The second QTL close to the centromere region of chromosome 5H accounted for 17% of genetic variation. A minor QTL on chromosome 2H explained 6% of genetic variation but was significant in both years. The Australian variety Stirling contributed to higher LOX content for the three QTLs. The two QTLs mapped at chromosome 5H for LOX content coincided with the QTLs for seed dormancy/pre-harvest sprouting from the same population. The pre-harvest sprouting susceptible alleles were associated with low LOX content, which indicated that the low LOX QTL from the Canadian malting barleys are only useful in the barley growing areas where the pre-harvest sprouting risk is low. New genetic sources for low LOX should be exploited in different germplasm with different mechanisms. 相似文献
2.
为挖掘大麦穗长和株高的QTL位点,以1个大麦重组自交系(recombinant inbred line,RIL)群体(以J36528和BMJ89为亲本,包含125个F10代)为材料,基于本课题组前期利用DArT标记构建的连锁图谱,结合4年2点共6个不同生态环境测得的穗长和株高表型数据,鉴定大麦穗长和株高QTL。结果表明,共鉴定到3个穗长QTL和2个株高QTL,分别分布在2H、3H、6H和7H染色体上,其中,穗长位点 Qsl.sicau-JB-2H在2个环境中被检测到,能够解释11.38%~14.66%的表型变异; Qsl.sicau-JB-7H在6个环境中均被检测到,能够解释35.10%~46.34%的表型变异;而 Qph.sicau-JB-6H仅在1个环境中被检测到,可解释17.99%的表型变异。株高位点 Qph.sicau-JB-6H在5个环境中均被检测到,能够解释16.36%~21.18%的表型变异;而 Qph.sicau-JB-3H仅在1个环境中被检测到,可解释15.40%的表型变异。本研究为解析大麦植株形态和产量性状遗传机制以及分子辅助育种奠定了基础。 相似文献
3.
小麦白粉病是世界范围内广泛流行的小麦叶部真菌病害,显著影响小麦的产量和品质。由于现有品种的白粉病抗性不断丧失,使得进一步挖掘新的白粉病抗源及抗病基因十分重要。本研究以硬粒小麦品种UC1113和Kofa构建的包含93个株系的F8代RIL群体为材料,利用235个多态性标记构建遗传图谱,并结合白粉病成株抗性表型数据,对4个环境下的白粉病成株抗性进行QTL定位。结果表明,在RIL群体中共定位到4个与白粉病成株抗性相关的QTL,分别位于1AL、4AL(2)和5AL染色体上。其中,来自UC1113的3个QTL( QPm.hnau-1AL 、 QPm.hnau-4AL.1 和 QPm.hnau-4AL.2 )为新的白粉病成株抗性QTL。本研究为小麦白粉病抗性基因挖掘和抗病育种提供了重要信息。 相似文献
4.
为发掘与小麦穗部性状相关的QTL,利用普通小麦BS366与白玉149杂交组合培育的73个DH群体为材料,构建了一套包含232个杂交组合的小麦永久F_2群体,基于90K SNP芯片标记构建了高密度遗传图谱,并利用该图谱对2个环境下的穗长、小穗数、穗粒数和千粒重进行QTL定位。结果发现,所构建的图谱总长19 533 cM,含有8 726个SNP标记,平均标记距离为2.24cM。结合群体基因分型结果,8 726个SNP标记合并为3 078个BIN标记,其中A基因组有1 283个(41.7%),B基因组有1 188个(38.6%),D基因组仅有607个(19.7%);共检测到96个QTL,分布在除3B和6B以外的19条染色体上,其中,控制穗长、小穗数、穗粒数和千粒重的QTL分别有20、59、6和11个,单一QTL可解释0.15%~12.34%的表型变异。51个QTL加性效应为正值,表明其加性效应来自于母本BS366;45个QTL加性效应为负值,表明其加性效应来自于父本白玉149。23个QTL的表型变异解释率大于5%,为主效QTL。 相似文献
5.
水稻苗期抗旱性的QTL分析 总被引:2,自引:0,他引:2
利用251个株系组成的Maybelle/白叶秋的加倍单倍体群体,构建了由226个SSR分子标记组成的遗传图谱。通过两年抗旱棚苗期抗旱性鉴定,应用复合区间作图法和QTLNetwork2.0对水稻苗期抗旱性进行QTL定位及互作效应分析。利用前者在两年共检测到5个抗旱性相关QTL,分别位于第2、3、5、6和8染色体;而通过后者在第2、3、5和6染色体上也找到了抗旱性相关的QTL,并且通过两种方法检测到的第3、5、6染色体上的3个QTL所在区间吻合;还发现4个具有上位性的QTL。所有抗旱性QTL的加性效应均为正值,表明来自父本白叶秋的这些抗旱性位点可以提高水稻的抗旱性。 相似文献
6.
Nie Yuanyuan Xia Hui Ma Xiaosong Lou Qiaojun Liu Yi Zhang Anling Cheng Liang Yan Longan Luo Lijun 《水稻科学》2022,29(3):277-287
Deep rooting is an important trait in rice drought resistance. Genetic resources of deep-rooting varieties are valuable in breeding of water-saving and drought-resistant rice. In the present study, 234 BC2F7 backcross introgression lines were derived from a cross of Dongye 80 (an accession of Dongxiang wild rice as the donor parent) and R974 (an indica restorer line as the recurrent parent). A genetic linkage map containing 1 977 bin markers was constructed by ddRADSeq for QTL analysis. Thirty-one QTLs for four root traits (the number of deep roots, the number of shallow roots, the total number of deep roots and the ratio of deep roots) were assessed on six rice chromosomes in two environments (2020 Shanghai and 2021 Hainan). Two of the QTLs, qDR5.1 and qTR5.2, were located on chromosome 5 in a 70-kb interval. They were detected in both environments. qDR5.1 explained 13.35% of the phenotypic variance in 2020 Shanghai and 12.01% of the phenotypic variance in 2021 Hainan. qTR5.2 accounted for 10.88% and 10.93% of the phenotypic variance, respectively. One QTL (qRDR2.2) for the ratio of deep roots was detected on chromosome 2 in a 210-kb interval and accounted for 6.72% of the phenotypic variance in 2020. The positive effects of these three QTLs were all from Dongxiang wild rice. Furthermore, nine and four putative candidate genes were identified in qRDR2.2 and qDR5.1/qTR5.2, respectively. These findings added to our knowledge of the genetic control of root traits in rice. In addition, this study will facilitate the future isolation of candidate genes of the deep-rooting trait and the utilization of Dongxiang wild rice in the improvement of rice drought resistance. 相似文献
7.
为挖掘控制大麦籽粒苯丙基酸含量的QTL,以紫光芒裸二棱和Schooner构建的包含193个家系的重组自交系(RIL)为材料,测定RIL群体及亲本籽粒苯丙氨酸含量,并结合SSR标记和完备区间作图法构建遗传连锁图谱,对大麦籽粒苯丙氨酸含量进行QTL定位。结果表明,紫光芒裸二棱籽粒苯丙氨酸含量为1.23 mg·g-1,Schooner籽粒苯丙氨酸含量为0.60 mg·g-1,群体籽粒苯丙氨酸含量在0.59~1.24 mg·g-1之间;所构建的大麦遗传连锁图谱包含180对SSR标记,总遗传距离为2 671.03 cM,平均标记间距为14.84 cM;共检测到4个控制大麦籽粒苯丙氨酸含量的QTL,均为新发现的QTL,除 qPHE-4H加性效应来自母本紫光芒裸二棱外,其他3个QTL加性效应均来自父本Schooner。 qPHE-2H和 qPHE-7H为主效QTL,分别位于2H和7H染色体上,表型贡献率分别为12.32%和15.45%。该研究结果为大麦籽粒苯丙氨酸含量QTL精细定位奠定了基础。 相似文献
8.
大麦黄花叶病是依靠土壤中禾谷多黏菌传播的病毒病,严重影响冬大麦的产量和品质,培育和利用抗病品种是最经济有效的防治方法。本研究以抗病品种扬饲麦1号与感病品种Gairdner为亲本,以杂交F1代经花药离体培养技术构建的DH群体为材料,对其大麦黄花叶病抗性进行两年鉴定与分析,并利用91对在亲本间多态性好的SSR(simple sequence repeat)标记构建了群体的遗传连锁图谱,采用Windows QTL IciMapping 4.0软件中的完备区间-加性模型(ICIM-ADD)对大麦黄花叶病进行QTL定位,共检测到9个与大麦黄花叶病病情指数相关的QTLs, 其中,qRYM-1Ha、 qRYM-1Hc、qRYM-2Ha 及qRYM-2Hb在两年间均被检测到,且 qRYM-2Ha在两年6个时期均被检测到,位于EBmag0793至GBM1047标记区间内,可解释的表型变异为5.61%~38.04%; qRYM-2Hb在 2015年第二、三期和2016年第一期被检测到,位于GBM1047至Bmag0749标记区间内,可解释的表型变异为11.40%~18.80%。qRYM-1Ha和 qRYM-4Ha可能是两个新的大麦黄花叶病抗性QTLs,黄花叶病抗性基因均来源于黄花叶病抗性品种扬饲麦1号。本研究为大麦黄花叶病抗性基因的发掘、精细定位、基因克隆及分子标记辅助选择育种提供了有利信息。 相似文献
9.
为分析大麦黄花叶病抗性基因的位置和效应,以高抗大麦品种扬农啤5号和感病大麦品种日引3号构建的253个RIL群体及亲本为材料,利用在双亲间具有多态性的108对SSR分子标记构建遗传群体连锁图谱,结合大麦黄花叶病抗性表型数据,采用QTL IciMapping 4.0软件进行大麦黄花叶病抗性QTL分析。结果表明,在大麦染色体1H、2H、5H和7H共检测到6个与大麦黄花叶病抗性相关的QTL,这6个QTL对大麦黄花叶病抗性的贡献率为4.39%~14.92%。其中,位于2H染色体的QTL qRYM-2Hb在3年9个时期均能检测到,介于标记区间GBM1309~EBmac0415,可解释5.70%~14.92%的表型变异,与已定位的 Rym16~(Hb)的位置相近,可能是 Rym16~(Hb)的等位基因;位于2H染色体的QTL qRYM-2Ha在2年3个时期均能检测到,介于标记区间EBmac0640~Bmag0744,可解释5.00%~10.88%的表型变异,可能是1个新的抗性位点;其他4个抗性QTL均仅在1年1个时期检测到,是否真实存在尚需进一步验证。同时,所有QTL的加性效应均为负值,表明定位的6个大麦黄花叶病抗性基因均来自母本扬农啤5号。 相似文献
10.
Chao Xiang Jie Ren Xiu-qin Zhao Zai-song Ding Jing Zhang Chao Wang Jun-wei Zhang Augustino Joseph Charles Qiang Zhang Yun-long Pang Yong-ming Gao Ying-yao Shi 《水稻科学》2015,22(6):264
To dissect the genetic basis of low phosphorus tolerance(LPT), 114 BC2F4 introgression lines(ILs) were developed from Shuhui 527 and Minghui 86(recurrent parents), and Yetuozai(donor parent). The progenies were tested for 11 quantitative traits under three treatments including normal fertilization in normal soil(as control), normal fertilization in barren soil and low phosphorus stress in barren soil in Langfang, Hebei Province, China. Moreover, the ILs were investigated at the seedling stage using nutrient solution culture method in greenhouse in Beijing, China. A total of 49 main-effect quantitative trait loci(QTLs) underlying yield related traits were identified in Langfang, and their contributions to phenotypic variations ranged from 6.7% to 16.5%. Among them, 25(51.0%) QTLs had favorable alleles from donor parent. A total of 48 main-effect QTLs were identified for LPT-related traits in Beijing, and their contributions to phenotypic variations ranged from 7.7% to 16.6%. Among them, 21(43.8%) QTLs had favorable alleles from donor parent. About 79.6% of the QTLs can be detected repeatedly under two or more treatments, especially QTLs associated with spikelet number per panicle, spikelet fertility and 1000-grain weight, displaying consistent phenotypic effects. Among all the detected QTLs, eight QTLs were simultaneously identified under low phosphorus stress across two environments. These results can provide useful information for the genetic dissection of LPT in rice. 相似文献
11.
基于SRAP和SSR标记的小麦品质相关性状的QTL定位 总被引:2,自引:0,他引:2
为了对小麦品质相关性状进行QTL定位,以两个品质性状差异较大的小麦品种西农981和陕麦159构建的169株F2群体和F2:3家系为材料,利用SRAP标记和SSR标记进行遗传图谱构建,并通过完备区间作图法对杨凌及三原两个环境下籽粒的粗蛋白质含量、淀粉含量、湿面筋含量和Zeleny沉降值进行QTL定位。结果表明,在两个环境下共检测到33个与品质性状相关的QTL,其中11个为粗蛋白含量QTL,分布于1A、3A、5A、6A、2B和4B染色体上,可解释表型效应的0.69%~2.48%;7个为淀粉含量QTL,分布于1A、6A、4B和2D染色体上,可解释表型变异的2.94%~6.99%;12个为湿面筋含量QTL,分布于1A、3A、5A、6A、2B、3B和4B染色体上,可解释表型变异的0.58%~2.37%;3个为Zeleny沉降值QTL,分布于3A、1B和3B染色体上,可解释表型变异的2.72%~11.31%。同时,在1A、3A、5A、6A、2B、4B染色体上存在粗蛋白质含量、淀粉含量和湿面筋含量QTL富集区,在后续研究中可重点关注。 相似文献
12.
为了发掘更多控制小麦旗叶大小及穗部相关性状的QTL,以兰考906和小偃81创制的133个F6~F7重组自交系为试验材料,在6个环境下利用SSR标记对旗叶大小及穗部相关性状进行QTL定位。结果表明,有202对SSR标记被用于构建遗传连锁图谱,图谱覆盖小麦21条染色体,全长1 678.93cM,标记间平均距离8.30cM。采用完备区间作图法共检测到30个QTL,分布在1B、2A、3D、4A、4B、4D、5D、6A、6B、6D和7D染色体上。其中,旗叶宽QTL有7个,穗长QTL有9个,小穗数QTL有5个,穗粒数QTL有5个,小穗着生密度QTL有4个,不同环境下单个QTL可解释的表型变异率为4.94%~23.14%,有14个QTL的表型贡献率大于10%,有8个QTL可在2个或2个以上环境中被检测到。其中,Qflw-4A在3个环境中被检测到,贡献率为10.13%~20.77%,是控制旗叶宽的稳定主效QTL;Qsl-4D.2在4个环境中被检测到,贡献率为12.58%~23.14%,是控制穗长的稳定主效QTL;Qker-5D在2个环境中被检测到,贡献率为11.44%~14.32%,是控制穗粒数的稳定主效QTL。这3个稳定主效QTL可作为改良叶宽和增加穗粒数的功能QTL作进一步研究。 相似文献
13.
小麦纹枯病是世界性的小麦重要病害之一,培育和使用抗病品种是减轻纹枯病危害最经济和有效的手段。为了挖掘更多的小麦纹枯病抗性QTL用于小麦标记辅助育种,本研究构建了CI12633和扬麦158重组自交系群体,采用二代测序方法开发SNP分子标记,并对群体中的94个家系进行基因型分析,构建遗传连锁图;采用牙签接种和病麦粒接种的方法鉴定重组自交系群体纹枯病抗性,进而对小麦纹枯病抗性QTL进行定位。结果显示,构建的遗传连锁图包含3 355个分子标记,遗传距离为2 510.66 cM,共有31个连锁群,均能分配到相应的染色体;在5A(2)、6A、1B、2B、3B、4B、5B、6B(2)、7B、1D、2D(2)、4D和7D染色体共发现16个与小麦纹枯病抗性相关的QTL,单个QTL可解释9.0%~26.8%的表型变异;除了7B染色体的QTL来源于感病品种扬麦158,其余QTL均来自抗病品种CI12633;3B、7D和5A(Chr5A_564101963)染色体的QTL与已有报道一致,其余均为新发现的QTL。发现的QTL和紧密连锁分子标记为今后小麦抗纹枯病分子标记辅助育种以及抗纹枯病基因的克隆提供帮助。 相似文献
14.
Molecular genetic mapping of quantitative trait loci associated with loaf volume in hexaploid wheat (Triticum aestivum) 总被引:1,自引:0,他引:1
M. Elangovan R. Rai B.B. Dholakia M.D. Lagu R. Tiwari R.K. Gupta V.S. Rao M.S. Rder V.S. Gupta 《Journal of Cereal Science》2008,47(3):587-598
Major efforts in wheat research are being made to improve the yield and quality of wheat. Loaf volume (Lv) is the main quality parameter deciding the bread making potential of wheat. To genetically dissect quantitative trait loci (QTLs) for Lv, a Recombinant Inbred Line (RIL) population (F8) was developed from a cross between two Indian wheat varieties “HI 977” and “HD 2329”. A total of 914 SSR and 100 ISSR primers were used for molecular analysis and the genetic map comprising 19 chromosomes was constructed with 202 SSR markers and 2 HMW glutenin subunit loci: Glu-B1 and Glu-D1. The phenotypic data were collected from six environments including three different agro-climatic zones for 2 consecutive years. Dissection of Lv through AMMI model revealed significant G×E variance for the trait. QTL analysis was performed using composite interval mapping. A total of 30 QTLs for Lv were detected and significant QTLs were identified on 6B and 6D chromosomes; 1B, 1D, 2A, 3A, 5B and 5D also contributed genetically to Lv. Association between 6B and 6D QTLs and variable expression of gliadins on group 6 chromosomes were discussed. QTLs detected in this study were compared with other QTL analysis in wheat. 相似文献
15.
小麦“N553×扬麦13”RIL群体小穗密度、株高及赤霉病抗性QTL分析 总被引:1,自引:0,他引:1
为了发掘新的抗赤霉病基因,以抗赤霉病新种质N553与扬麦13构建的包含184个家系的重组自交系(RILs)为材料,利用217对在双亲间具有多态性的分子标记构建遗传连锁图谱,利用该图谱对小穗密度、株高及赤霉病抗性进行QTL检测,并分析了小穗密度及株高与赤霉病抗性的相关性。结果表明,本研究共检测到5个赤霉病抗性相关QTL,其中1个效应较大的QTL位于2D染色体上,位于标记wmc18-cfd233之间,可解释8.17%~11.42%的表型变异;在3B染色体短臂上检测到1个QTL,位于标记barc102-gwm533之间,可解释5.33%~42.96%的表型变异。QFhb.jaas-2DS与QFhb.jaas-3BS聚合可显著增强小麦赤霉病抗性。另外3个QTL贡献率小于10%,分别位于染色体2B、3B、4A上。检测到与小穗密度相关的QTL有1个,位于3B染色体上,可解释5.36%~6.08%的表型变异。检测到与株高相关的QTL有5个,分别位于染色体4A、7A、5B、6B上,可解释5.2%~8.93%的表型变异。小穗密度与赤霉病抗性呈正相关,株高与抗扩展抗性无相关性,与抗侵染抗性呈负相关。结合以上QTL检测及相关性分析结果可知,QFhb.jaas-3BL可能不是赤霉病抗性位点。因此,包括QFhb.jaas-3BL在内的贡献率小于10%且仅在单一环境下检测到的3个赤霉病抗性相关QTL需进一步进行多年多点试验。 相似文献
16.
本研究用YC2×YF1抗、感组合的F2群体在两个环境中对蓖麻枯萎病抗性进行了QTL定位。遗传分析表明,群体中枯萎病抗性呈连续性偏态分布,后代表型偏抗性亲本。2014年检测到5个QTL,解释了总变异的18.21%,单位点贡献率为0.05%~12.32%。2015年分别在出苗后20d、30d、40d、现蕾期和乳熟期进行了动态定位,分别检测出4、12、13、4和1个QTL,单位点贡献率为1.64%~-21.91%,5个发育时期检出的QTL,主要集中在第3、4和8连锁群上。有1个QTL 在4个时期、3个QTL在3个时期、6个QTL在2个时期被重复检测到。在第8连锁群上一个QTL在两个环境同一时期被重复检测到。以上结果可为蓖麻抗枯萎病分子标记辅助选择提供参考。 相似文献
17.
小麦蛋白含量的提高对营养和加工品质具有重要的意义。本研究在2年3点6个环境下,以小麦品种“花培3号×豫麦57”构建的双单倍体(doubled haploid,DH)群体为材料,通过条件和非条件QTL鉴定与小麦开花后5个时期籽粒清蛋白和球蛋白含量积累有关的基因或数量性状基因座。结果表明,基于完备区间作图法,共检测到40个非条件QTLs和34个条件QTLs,单个位点的贡献率范围为6.44%~25.13%,其中QAlu1B-3在6个环境下的第4和第5时期均被检测出。本研究结果为了解不同灌浆期QTL选择性表达奠定了理论基础,检测到的QTL可能对小麦籽粒品质的提高有重要贡献。 相似文献
18.
以野生型大豆ZYD00006(供体亲本)与黑龙江省主栽品种绥农14(轮回亲本)所构建的回交导入系(1204株)为研究材料,利用WinQTL2.5的复合区间作图法(CIM)在9个连锁群定位了16个与蛋白质含量相关的QTL(14个正效应,2个负效应);导入系群体经过严格的蛋白质含量筛选鉴定,得到10个蛋白质含量性状明显大于轮回亲本的导入系株行。利用这10个高蛋白含量株行(选择群体)结合随机对照群体,通过基于遗传搭车原理的卡方分析,检测到分布于10个连锁群上的17个与大豆蛋白质含量相关的标记位点,对蛋白质含量表现为正效应。两种方法共同检测到7个QTL。这些材料和位点将为高蛋白含量相关基因克隆及分子辅助育种提供重要的材料基础和标记信息。 相似文献
19.
Alpana Anupam Jahangir Imam Syed Mohammad Quatadah Anantha Siddaiah Shankar Prasad Das Mukund Variar Nimai Prasad Mandal 《水稻科学》2017,24(1):10-20
We genotyped 74 rice germplasms including Tripura's local landraces, improved varieties, cultivars and breeding lines and other rice varieties using molecular markers for genetic diversity, drought QTLs, and blast resistance genes. The number of alleles per locus ranged from 2 to 5 with an average of 2.9. The polymorphic information content value per locus ranged from 0.059 (RM537) to 0.755 (RM252) with an average of 0.475. Cluster analysis based on 30 simple sequence repeat markers revealed 5 clusters and also indicated the presence of variability within the rice accessions. The drought QTL qDTY2.1 was found in 56.0% of germplasms and qDTY1.1 was detected in only 6.8% of the germplasms. Out of seven rice blast resistance genes screened, only two rice varieties, RCPL-1-82 and Buh Vubuk (Lubuk), were positive for four blast resistance genes while only Releng possessed two blast resistance genes. Among 74 rice germplasms, only three accessions, Releng, RCPL1-82 and Buh Vubuk (Lubuk), possessed both drought-related QTLs and blast resistance genes. Overall, the 74 indigenous rice genotypes showed low level of genetic diversity, which is in contrast to high level of genetic diversity among rice varieties in northeast India, where highlights the good farming practice, conservation of germplasms and the limitation of molecular markers employed in this study. The presence of both drought related QTLs and blast resistance genes in some of the germplasms can be useful in future breeding programmes. 相似文献
20.
BNS是一个新发现的温敏小麦雄性不育系,有良好的不育性和自身转换性,在杂交小麦利用和不育资源研究中有重要价值。为定位BNS的恢复基因,首先以BNS的高恢复系中国春为材料,创建BNS×中国春F2作图群体,建立自交结实率和花粉可育率两个表型BSA池;然后用中国春缺体-四体系检测恢复相关连锁群;最后用这些连锁群上的SSR分子标记筛选BSA池,用检测的连锁标记筛选F2作图群体,进一步定位恢复基因的QTL位点。结果表明,用BNS与中国春缺四体杂交,根据F1不育性检测到4个相关连锁群,分别是1A、1B、2B和7B;利用4个相关连锁群和4个非相关连锁群共8个染色体上的222对SSR分子标记筛选2对共4个BSA池,结果在3个相关连锁群上检测到8对连锁标记;用这8对连锁标记筛选F2群体210个个体植株,检测到5个QTL位点,位于1A、1B和2B染色体上。这些位点中,1个与自交结实率相关,2个与两个表型均相关,是主效QTL位点,另2个与花粉可育率相关,是微效QTL位点。这些结果为BNS恢复基因分子标记选择和精细定位奠定了基础。 相似文献