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1.
小麦耐盐基因的标记和标记的克隆   总被引:16,自引:0,他引:16  
翁跃进  陈道明 《遗传学报》2002,29(4):343-349
普通小麦(Triticum aesticum L)耐盐农家品种茶淀红与盐敏感品种农大85021杂交,对杂交后代141株F2分离个体进行耐盐性鉴定。通过遗传分析和卡方检验证实小麦耐盐农家品种茶淀红含有一个主效耐盐基因,杂交后代符合1:2:1的分离规律。依据混合群体分组分析法(Bulked Segregate Analysis,BSA)建立耐盐基因池和盐敏感基因池,通过RAPD实验,从520个引物中筛选出了一个在两池间具有多态性的引物OPZ09,用双亲、F1、F2单株DNA进行RAPD实验证明了该引物扩增出的特异性片段OPZ09-590是一个与茶淀红耐盐基因连锁的RAPD标记,用JOINMAP Version1.4计算基因与标记间的重组值为5.674%,连锁距离为6.557cM。从琼脂糖凝胶回收OPZ09-590与载体pUCm-T连接,并转入受体菌JM109,对克隆片段测序表明其实际大小为591bp,故此小麦茶淀红耐盐基因的RAPD标记为OPZ09-591。  相似文献   

2.
耐盐突变体小麦后代耐盐稳定性分析研究   总被引:1,自引:0,他引:1  
以卫星搭载小麦种子为原始材料,利用其幼穗、幼胚诱导的愈伤组织进行耐盐突变体的筛选,对耐盐愈伤组织再生植株后代进行耐盐稳定性生理生化特性分析。结果表明:(1)耐盐系后代在土壤高盐浓度条件下,游离脯氨酸含量稳定增加,且高于对照系;(2)耐盐系再生植株后代保持较高的K^ /Na^ 比;(3)与对照相比,种子醇溶蛋白电泳带谱中的b2,b3,b5,b7带为耐盐系所特有,b8带消失;(4)耐盐系再生植株后代可溶蛋白电泳带为26条,而对照系为23条蛋白带。其中98kD、75kD、52kD、49kD和32kD为耐盐系的特有蛋白带。而38kD和35kD蛋白带为对照系所特有。  相似文献   

3.
棉花耐盐变异体的遗传分析   总被引:7,自引:0,他引:7  
利用花粉管通道技术将耐起因三的罗布麻(Apocynum venetum)DNA导入鲁棉6号,从后代中筛选出棉花耐盐变异体山农011。对山农011及其杂种后代进行了抗盐遗传和基因效应分析。结果表明:变异体的耐盐性是由核基因控制的。其遗传基因效应以加性效应为主,并存在较大的加快互作效应。该耐盐变异体可作为一良好的抗盐种质材料利用。  相似文献   

4.
花生萌发期耐盐性综合评价及耐盐种质筛选   总被引:6,自引:0,他引:6  
为了解江苏花生种质资源的耐盐性,挖掘耐盐种质资源,本试验对47份花生种质材料进行耐盐性综合评价,以发芽势、发芽指数、活力指数、发芽率、鲜重、相对含水量、干重的相对值为鉴定指标,采用主成分分析、隶属函数法以及聚类分析方法,对其进行萌发期耐盐性综合评价及耐盐种质筛选。结果表明,花生种质材料萌发期的耐盐性强弱判定结果受多个指标影响,相对含水量和鲜重可以作为花生种质萌发期耐盐性的最佳鉴定指标,5 g/L Na Cl溶液可以作为花生萌发期耐盐性鉴定的合适浓度,47份花生材料划为5个耐盐级别,筛选出JP42、JP29、JP23、JP43、JP35、JP4等6份耐盐性强的种质,JP27和JP98为高度敏感材料,隶属函数法结合耐盐分级可以作为一种简便快速鉴定花生萌发期耐盐性的方法。  相似文献   

5.
为选育具有经济价值的带有黑麦R染色体组小片段的小麦-黑麦育种基础材料,对小麦-黑麦5R/5A×6R/6A代换系杂交后代的8份高代材料6-30、6-31、7-1、7-9、7-13、7-21、7-22和7-28进行形态学、细胞学观察,及SSR分析和GISH检测。结果表明,8个品系田间生长整齐、育性正常,具有大穗、多小穗,抗白粉病、叶锈病等优良性状;对其中2个品系7-1和7-9进行花粉母细胞减数分裂观察,发现大多数细胞染色体构型为2n=21Ⅱ,具有良好的遗传稳定性;选择黑麦R染色体通用引物及5R、6R染色体上的微卫星引物共8对,对8个品系进行SSR分析,结果表明8个品系都有黑麦5R或6R染色体片段的导入,进一步进行GISH检测,发现5个品系6-31、7-1、7-13、7-21、7-22都存在黑麦杂交信号,为小麦-黑麦小片段易位系。本研究综合多种手段鉴定的8份材料皆为小麦-黑麦小片段易位系,在育种上具有利用价值。  相似文献   

6.
玉米耐盐种质筛选及群体遗传结构分析   总被引:4,自引:0,他引:4  
本研究采用盆栽法评价了157份玉米自交系的苗期耐盐性,并利用115对SSR标记解析了耐盐自交系的群体遗传结构。结果表明,T5V、N1026、农大1145及4S等10份玉米自交系为高耐盐玉米种质;处理后10d株高、地上鲜重、地下鲜重、地上干重、地下干重及存活率可作为玉米苗期耐盐鉴定的重要指标;利用SSR分子标记,结合系谱资料,将157份自交系划为6个类群,其中具有通系5血缘(Ⅰ类群)、泰国糯玉米种质血缘(Ⅲ类群)及旅大红骨、黄早四等血缘(Ⅵ类群)的自交系耐盐性较强,是开展玉米耐盐育种的重要种质类群。本研究筛选到的耐盐种质将为玉米耐盐遗传机制研究、玉米种质遗传改良及耐盐分子育种提供优异的基因资源。  相似文献   

7.
普通小麦Qz180中一个抗条锈病基因的分子作图   总被引:3,自引:0,他引:3  
普通小麦(Triticum aestivum L.)材料Qz180具有良好的抗条锈病特性,经基因推导发现其含有一个优良的抗条锈病的基因,暂定名为YrQz.用Qz180与感病材料铭贤169和WL1分别杂交构建了两个F2群体,用条中30号条锈菌小种对这两个群体进行的抗性测验表明,YrQz为显性单基因遗传.通过SSR和AFLP结合BSA的方法对这个基因进行了分子作图,结果鉴定出与YrQz连锁的2个SSR标记和2个AFLP标记.根据SSR标记的染色体位置,该基因被定位在2B染色体的长臂上,位于两个SSR位点Xgwm388和Xgwm526之间;两个AFLP标记P35M48(452)和P36M61(163)分别位于该基因的两侧,遗传距离分别为3.4 cM和4.1cM.  相似文献   

8.
不同水稻种质在不同生育期耐盐鉴定的差异   总被引:3,自引:0,他引:3  
以21份水稻(Oryza sativa)种质为材料,用1.5%Na Cl处理种子8天后测定发芽率。在苗期用不同浓度NaCl水培处理10天,测定叶片死亡率等指标和高亲和性K+转运基因(HKT)家族变异。在成株期选3份种质,用不同浓度NaCl盆栽处理,在开花期和籽粒蜡熟期测定植株可溶性糖和生物量等指标,以明确各种质不同生育期的耐盐差异和关键指标。结果表明,在NaCl胁迫下,种子发芽率受到显著影响。苗期盐胁迫后,各种质的平均叶片死亡率变幅最大。在被鉴定的8个耐盐种质中,HKT家族的7个基因除OsHKT2;4外均存在。在≤1 g·kg–1盐胁迫下植株可溶性糖含量表现出刺激增长效应。CG15R单株生物量与盐浓度呈正相关,且随盐浓度的增加而缓慢增长。在≤1 g·kg–1时,中花9号的生物量随盐浓度的增加而增加。水稻耐盐性具有明显的阶段发育特异性,且不同发育阶段的耐盐性之间无相关性。叶片死亡率与蜡熟期生物量可分别作为苗期和成株期耐盐鉴定的关键指标。CG15R可作为高耐盐种质进行深入分析和利用。  相似文献   

9.
普通小麦Qz180中一个抗条锈病基因的分子作图(英文)   总被引:2,自引:0,他引:2  
普通小麦(Triticum aestivum L.)材料Qz180具有良好的抗条锈病特性,经基因推导发现其含有一个优良的抗条锈病的基因,暂定名为YrQz。用Qz180与感病材料铭贤169和WL1分别杂交构建了两个F_2群体,用条中30号条锈菌小种对这两个群体进行的抗性测验表明,YrQz为显性单基因遗传。通过SSR和AFLP结合BSA的方法对这个基因进行了分子作图,结果鉴定出与YrQz连锁的2个SSR标记和2个AFLP标记。根据SSR标记的染色体位置,该基因被定位在2B染色体的长臂上,位于两个SSR位点Xgwm388和Xgwm526之间;两个AFLP标记P35M48(452)和P36M61(163)分别位于该基因的两侧,遗传距离分别为3.4cM和4.1cM。  相似文献   

10.
采用在沿海滩涂用海水灌溉的方法,对从俄罗斯引进的104份水稻种质资源进行了苗期耐盐性鉴定。结果表明,随着海水灌溉时间延长,土壤电导率和盐度逐渐增加,水稻受盐害的程度加剧,不同材料之间差异明显。敏感对照日本晴在海水灌溉第9天全部死亡。根据国际水稻所水稻耐盐性9级分级方法进行苗期耐盐性评价,从俄罗斯资源中筛选出1级耐盐材料2份,3级耐盐材料14份,两次重复鉴定结果基本一致。试验结果表明,水稻耐盐性受生态环境影响较大,有必要对引进的资源进行重新筛选和评价。  相似文献   

11.
刘方慧  牛永春  邓晖  檀根甲 《遗传学报》2007,34(12):1123-1130
小麦农家品种赤壳(苏1900)对当前我国小麦条锈菌(Puccinia striiformis Westend.f.sp.tritici)多个流行小种均有较好抗性。遗传分析表明,该品种对条中32号小种的抗性是由一对显性基因控制。本文采用分离群体分析法(bulked segregant analysis,BSA)和微卫星多态性分析方法,对该基因进行了分子标记和定位研究。用Taichung29×赤壳的F2代分离群体建立抗、感DNA池,共筛选了400多对SSR引物,发现5个标记Xwmc44、Xgwm259、Xwmc367、Xcfa2292、Xbarc80在抗、感DNA池间与在抗、感亲本间同样具有多态性,它们均位于1BL染色体臂上。经用具有140株抗病株、60株感病株共200株植株的F2代分离群体进行的遗传连锁性检测,上述5个标记均与目的基因相连锁,遗传距离分别为8.3cM、9.1cM、17.2cM、20.6cM和31.6cM。用全套21个中国春缺-四体材料进行的检测进一步证实了这5个SSR标记均位于小麦1B染色体上。综合上述结果,将赤壳中的主效抗条锈病基因YrChk定位在1BL染色体臂上。与以前已定位于1B染色体上的抗条锈病基因的比较研究表明,YrChk基因可能是一个新的抗条锈病基因。小麦农家品种中抗病基因资源的发掘和利用将有助于提高我国小麦生产品种中的抗病基因丰富度,有助于改善长期以来小麦生产品种中抗病基因单一化的局面。  相似文献   

12.
一个来自硬粒小麦的抗白粉病基因的鉴定和微卫星标记   总被引:6,自引:0,他引:6  
在起源于硬粒小麦(TriticumdurumDesf.accessionDR147)和尾状山羊草(AegilopscaudataL.acc.Ae14)合成的双二倍体与普通小麦品种“莱州953”杂交组合衍生的BC3F2群体中鉴定了一个抗小麦白粉病基因。遗传分析表明,该基因为一个显性单基因。应用分离群体分组法(BSA),鉴定了两个与抗病基因紧密连锁的微卫星标记Xgwm311和Xgwm382,它们与抗病基因的遗传距离分别为5.9cM和4.9cM。对双二倍体亲本硬粒小麦DR147和尾状山羊草Ae14及轮回亲本“莱州953”的DNAPCR扩增结果表明,与抗病基因相关的微卫星标记Xgwm311和Xgwm382来源于硬粒小麦DR147。根据已发表的小麦微卫星图谱和对“中国春”缺-四体系DNA扩增结果,抗病基因被定位在小麦2A染色体的长臂末端。  相似文献   

13.
This study was conducted to identify microsatellite markers (SSR) linked to the adult-plant leaf rust resistance gene Lr22a and examine their cross-applicability for marker-assisted selection in different genetic backgrounds. Lr22a was previously introgressed from Aegilops tauschii Coss. to wheat (Triticum aestivum L.) and located to chromosome 2DS. Comparing SSR alleles from the donor of Lr22a to two backcross lines and their recurrent parents showed that between two and five SSR markers were co-introgressed with Lr22a and the size range of the Ae. tauschii introgression was 9-20 cM. An F(2) population from the cross of 98B34-T4B x 98B26-N1C01 confirmed linkage between the introgressed markers and Lr22a on chromosome 2DS. The closest marker, GWM296, was 2.9 cM from Lr22a. One hundred and eighteen cultivars and breeding lines of different geographical origins were tested with GWM296. In total 14 alleles were amplified, however, only those lines predicted or known to carry Lr22a had the unique Ae. tauschii allele at GWM296 with fragments of 121 and 131 bp. Thus, GWM296 is useful for selecting Lr22a in diverse genetic backgrounds. Genotypes carrying Lr22a showed strong resistance to leaf rust in the field from 2002 to 2006. Lr22a is an ideal candidate to be included in a stack of leaf rust resistance genes because of its strong adult-plant resistance, low frequency of commercial deployment, and the availability of a unique marker.  相似文献   

14.
普通冬小麦品系99-2439在郑州连续4年对田间白粉菌(Blumeria graminis sp. tritici)表现高抗,但其抗性基因来源不清。通过染色体C-分带和1RS染色体特异性SCAR标记鉴定, 表明它是一个小麦-黑麦(Triticum aestivum - Secale cereale)1BL/1RS异易位系。通过对中国春×99-2439杂交F2代分离群 体抗性鉴定和1RS染色体臂检测结果分析, 证明该抗病基因不在1RS染色体臂上。用单孢小麦白粉菌分离株对其抗性遗传进行研究, 结果表明, 99-2439的白粉病抗性由一对小种专化、隐性抗病基因控制。由于携带Pm5a的Hope/8Cc对中国的21个小麦白粉菌分离菌株均高度感病, 而99-2439高抗混和白粉菌和5个单孢分离菌株, 所以, 99-2439所携带的抗白粉病基因不同于Pm5a。  相似文献   

15.
普通小麦99-2439中的白粉病抗性遗传   总被引:6,自引:0,他引:6  
普通冬小麦品系99-2439在郑州连续4年对田间白粉菌(Blumeria graminis sp.tritici)表现高抗,但其抗性基因来源不清.通过染色体C-分带和IRS染色体特异性SCAR标记鉴定,表明它是一个小麦-黑麦(Triticum aestivum-Secale cereale)lBL/1RS异易位系.通过对中国春×99-2439杂交F2代分离群体抗性鉴定和1RS染色体臂检测结果分析,证明该抗病基因不在1RS染色体臂上.用单孢小麦白粉菌分离株对其抗性遗传进行研究,结果表明,99-2439的白粉病抗性由一对小种专化、隐性抗病基因控制.由于携带Pm5a的Hope/8Cc对中国的21个小麦白粉菌分离菌株均高度感病,而99-2439高抗混和白粉菌和5个单孢分离菌株,所以,99-2439所携带的抗白粉病基因不同于Pm5a.  相似文献   

16.
Stripe rust, caused by Puccinia striiformis Westend. f. sp. tritici Erikss., is a severe foliar disease of common wheat (Triticum aestivum L.) worldwide. Use of adult-plant resistance (APR) is an efficient approach to provide long-term protection of crops from the disease. The German spring wheat cultivar Naxos showed a high level of APR to stripe rust in the field. To identify the APR genes in this cultivar, a mapping population of 166 recombinant inbred lines (RILs) was developed from a cross between Naxos and Shanghai 3/Catbird (SHA3/CBRD), a moderately susceptible line developed by CIMMYT. The RILs were evaluated for maximum disease severity (MDS) in Sichuan and Gansu in the 2009-2010 and 2010-2011 cropping seasons. Composite interval mapping (CIM) identified four QTL, QYr.caas-1BL.1RS, QYr.caas-1DS, QYr.caas-5BL.3 and QYr.caas-7BL.1, conferring stable resistance to stripe rust across all environments, each explaining 1.9-27.6, 2.1-5.8, 2.5-7.8 and 3.7-9.1?% of the phenotypic variance, respectively. QYr.caas-1DS flanked by molecular markers XUgwm353-Xgdm33b was likely a new QTL for APR to stripe rust. Because the interval between flanking markers for each QTL was less than 6.5?cM, these QTL and their closely linked markers are potentially useful for improving resistance to stripe rust in wheat breeding.  相似文献   

17.
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   

18.
利用APAGE、荧光原位杂交技术和RFLP标记,对导入黑麦(SecalecerealeL.)多小穗等性状创制的小麦新种质10_A进行了分子标记检测。APAGE分析发现,10_A与其他1RS/1BL易位系一样,含有1RS的醇溶蛋白标记位点Gld1B3。以黑麦基因组总DNA作探针,用中国春(Triticumaestivumcv.ChineseSpring)基因组DNA作封阻,与10_A根尖细胞有丝分裂染色体进行荧光原位杂交。结果表明,黑麦的1RS易位到10_A中。用25个RFLP探针进行Southern分析,进一步发现10_A的1BS特异限制性片段发生丢失,代之以黑麦1RS的特异限制性片段,而位于其他染色体上的特异限制性片段未发生缺失。据此认为,多小穗小麦新种质10_A属于1RS/1BL易位系。同时还讨论了10_A在小麦遗传改良中的利用情况。  相似文献   

19.

Since global warming affects wheat cropping systems, more has yet to be indicated on the parameters, which control terminal heat tolerance, and severely influence wheat (Triticum aestivum L.) productivity. Identification of tolerant wheat genotypes by heat tolerance-linked molecular markers is a rapid and cost-effective screening tool in plant breeding. Accordingly, in a four-year field experiment (2015–2019), 44 wheat genotypes were selected out of 100 genotypes, and were examined in timely and late planting (mid-January resulting in heat stress). Stress decreased yield components, including 1000-kernel weight (TKW), grains per spike, and plants per square meter, and the physiological traits, including days to heading and days to maturity, grain filling duration, and greenness, and eventually decreased grain yield up to?~?28%. The early maturity genotypes resulted in higher yields under stress conditions by a stress-avoidance mechanism. Among 14 SSR markers, GWM577 was positively correlated with yield, and WMS3062, GWM261, and WMS1025 had positive correlations with longevity under stress. Accordingly, WMS3062 and GWM261 can be used to determine high yield and early maturity genotypes. Furthermore, GWM114 showed a positive correlation with TKW, indicating their usefulness for grouping wheat genotypes and for identifying heat-related markers. Since the crossing of the genetically distant genotypes can create more diverse populations, the results could be applied to plan breeding projects to establish more diverse populations for different chromosomal locations and traits under heat stress conditions. Moreover, our findings demonstrated that the morphological and molecular analyses could be useful for describing wheat genetic variation of heat tolerance.

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20.
The chromosomal composition of the spring triticale line 131/7 carrying a rye—wheat translocation was studied using GISH, C-banding, and SSR analysis. The complex analysis revealed the presence of a pair of 2D chromosomes and T2RS.2RL-2BL translocation in the genome of the hexaploid triticale line 131/7. The break point in the translocated chromosome is between the markers Xwmc592 and Xwmc441, loci 63.9 cM and 76.8 cM on the linkage map (Wheat, Consensus SSR, 2004 NA-SSR-2004-2B) and in the region C-2BL2-0.36 on the physical map (Wheat, Physic al, SSR). The analysis of the line enables its use in breeding programs and in genetic studies.  相似文献   

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