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1.
119份小麦种质资源醇溶蛋白遗传多样性分析 总被引:2,自引:0,他引:2
利用A-PAGE对119份小麦种质资源进行了醇溶蛋白遗传多样性分析。结果显示,共分离出蛋白带1 938条,迁移率不同的谱带类型116种,其中编号为10和14的2种谱带出现频率最高,分别为54.62%和96.44%,其余114种谱带类型具有较强的多态性;每个种质材料的醇溶蛋白谱带数为10~24条,大部分为13~19条;供试种质间遗传距离在0.24~0.83,平均为0.54;聚类分析将所测材料分为6大类,与种质资源所反映的系统关系类似,表明醇蛋白在一定程度上能反映种质间的亲缘关系。 相似文献
2.
中国小麦地方品种内和品种间醇溶蛋白遗传多样性分析 总被引:8,自引:0,他引:8
为了揭示中国小麦地方品种内遗传异质性和品种间的遗传多样性,采用A-PAGE方法,对72份来自不同生态区的地方品种进行醇溶蛋白构成分析。结果发现,全部供试地方品种共观察到101条迁移率不同的务带,构成229种醇溶蛋白构型,每个品种醇溶蛋白条带数目为14—24。63份(87.5%)地方品种在品种内具有2种以上醇溶蛋白变异类型,其中,变异类型最多的品种二红皮小麦(ZM004659)30个子粒中有14种之多,多数品种具有2—3种变异类型。品种内醇溶蛋白构型一致的品种共有9个,占12.5%。这表明供试的大多数小麦地方品种内个体间在醇溶蛋白构成上具有遗传异质性。聚类分析表明,相同生态区的地方品种没有整齐地聚为一类。 相似文献
3.
利用SRAP和SSR分子标记检测分析29份棉花种质遗传完整性 总被引:15,自引:2,他引:13
利用SRAP和SSR分子标记检测29份棉花种质遗传完整性。结果表明,无论每一份不同更新发芽率水平繁殖后代的种质之间,还是每一份不同繁殖世代数种质之间,其等位基因频率差异不显著,也没有检测到稀有等位基因缺失的情况。本试验表明不同更新发芽率水平和繁殖世代数差异没有对棉花这种常异花授粉作物种质遗传完整性变化产生影响。 相似文献
4.
种子老化诱导小麦染色体畸变及大麦醇溶蛋白带型频率变化的研究 总被引:10,自引:3,他引:7
通过时20份小麦种质发芽率和根尖细胞染色体畸变的测定,结果表明同一品种贮藏于中期库的低发芽率种质,其染色体畸变率明显高于贮藏于长期库的高发芽率种质.从总体上看,种子根尖细胞染色体畸变率与发芽率呈负显著相关,而与贮藏年限无显著相关.但对长期库和中期库的种质分别进行统计分析,种子根尖染色体畸变率与发芽率和贮藏年限均无显著相关.对大麦地方品种"普乃干木"的醇溶蛋白分析表明,该品种有4种biotype,随着发芽率的下降,其群体中的4种bio-type的频率发生了变化,当发芽率从95%降到34%时,其中一种biotype出现了消失,而有一种biotype频率从83%上升至95%,此结果表明,种子生活力下降和不同biotype种子存活能力存在差异,可能导致了异质种质材料遗传选择和漂变的发生. 相似文献
5.
运用酸性聚丙烯酰胺凝胶电泳(A-PAGE)技术,对96份人工合成六倍体小麦的醇溶蛋白多样性进行了分析。结果显示,96份人工合成小麦中,共分离出65条不同的醇溶蛋白谱带,其中ω区22条,β和γ区各17条,α区9条,但各醇溶蛋白在电泳图谱中出现的频率差异较大,其变化范围为1.04%~91.67%。醇溶蛋白遗传多样性指数(H′)及多态性信息含量(PIC)分析结果显示,β、ω两个谱带区醇溶蛋白组成最为丰富,而α区最低;聚类分析结果显示,材料间的平均遗传距离为0.86,在遗传距离为0.83水平上,96份材料被划分为4个主要类群,类群间的关系基本反映了合成双二倍体的亲缘关系。研究结果表明,人工合成六倍体小麦醇溶蛋白基因位点表现出广泛的遗传变异,具有丰富的遗传多样性。 相似文献
6.
鹅观草种质资源醇溶蛋白遗传多样性研究 总被引:2,自引:0,他引:2
以8个地理类群的90份鹅观草野生种质材料为研究对象,采用A-PAGE(酸性聚丙烯酰胺)凝胶电泳技术进行蛋白质水平遗传多样性检测.研究结果表明,来源于不同居群的鹅观草共分离出26条谱带,每个材料可以分离出5~26条迁移率不同的谱带, 平均谱带数为16.39条,其中平均多态性谱带为12.65条,多态性比例为77.22%;基于供试材料醇溶蛋白每个位点谱带出现的频率,分别计算了地理类群内多样性指数(0.345)和总多样性指数(0.471),类群间的遗传分化系数为26.8%,表明鹅观草变异的73.2% 来源于类群内;90份供试材料醇溶蛋白的Jaccard遗传相似系数变异范围为0.133 3~1.000,平均遗传相似系数为0.395 7;利用种子醇溶蛋白可将90份材料分为12类,鹅观草种质资源之间的亲缘关系呈现出一定的地域性规律;不同地理类群间的遗传多样性指数从高到低的排列顺序依次为云南>四川>内蒙古>新疆>山西>甘肃>宁夏>河北.因此在进行鹅观草种质资源收集和原地保护时,建议对云南和四川地区的鹅观草种质资源应给予极大关注. 相似文献
7.
普通小麦品种间醇溶蛋白遗传多样性分析 总被引:15,自引:3,他引:12
采用酸性聚丙烯酰胺凝胶电泳(A—PAGE)对43个不同来源的普通小麦品种进行了醇溶蛋白位点特异性检测,分析了不同基因型间醇溶蛋白的遗传差异和遗传多样性。结果表明:43个供试品种在醇溶蛋白带型上差异显著。醇溶蛋白电泳共分离出51条迁移率不同的带,其中有4条稳定表达带(均为100%表达).47条具有多态性,占97.6%。供试品种间遗传距离(GD)在0.35~0.82之间,平均值为0.58,遗传变异较大。聚类分析可将其分为5大类。分析认为:供试品种醇溶蛋白变异丰富,存在广泛的遗传多样性。 相似文献
8.
采用分别保存于长期库及中期库的3个小麦地方品种的6份材料,进行了9项农艺性状及35个与农艺性状相关的微卫星标记检测,每份材料选取30个单株进行遗传多样性与遗传结构分析。结果表明:(1)更新前,3个小麦地方品种均为遗传异质性群体,在SSR位点上的异质度分别为57.14%、48.57%和5.71%。(2)在农艺性状表现上,只有温泉小麦3在株高和穗粒数上更新后比更新前显著增加,其他材料无显著差异。(3)在SSR位点多态性表现上,3个品种在更新后均发生了遗传多样性变化,8个与粒重、产量、生育期性状相关位点存在等位位点丢失现象,其中2个与粒重、生育期相关位点频率变化显著。(4)综合农艺性状调查与SSR分子标记检测结果发现,3个品种更新前后在多样性指数上无显著差异,遗传分化系数Gst分别为0.0269、0.0324和0.0380,即更新前后遗传差异分别为2.69%、3.24%和3.80%。上述结果建议,经繁殖更新的小麦种质资源能够比较完好地保持其遗传多样性和遗传结构。对于遗传异质性小麦地方品种在繁殖更新后存在遗传多样性丢失的危险,为了保证更新前后的遗传完整性,建议在繁殖更新过程中每个品种至少应保持300个单株的群体。 相似文献
9.
采用SDS-聚丙烯酰胺凝胶电泳(SDS-PAGE)对236份新疆小麦地方品种的高分子量麦谷蛋白亚基(HMW-GS)的组成进行了分析。结果表明:Glu-1位点共有19种等位基因,其中Glu-A1位点3种,Glu-B1位点7种,Glu-D1位点9种;亚基null、7+8、2+12在各自的位点上出现频率最高,分别达到91.95%、85.17%、80.93%;亚基组成类型共有21种,主要为null/7+8/2+12,频率达70.34%;同时筛选出33份含有1、2*、13+16、14+15、5+10、1.5+10、17+18等优质亚基的材料,可作为优质基因源。利用酸性聚丙烯酰胺凝胶电泳(A-PAGE)对其中的65份地方品种进行醇溶蛋白多样性分析。结果表明:电泳出现64条迁移率不同的谱带,构成65种组合,其中ω区出现的谱带最多,达17条,其次是β和γ区各16条,α区出现的谱带数最少,为15条。从每条谱带在65份材料中出现的频率看,总的变异范围为1.54%~93.85%;α、β、γ和ω四个分区多样性指数(H′)分别为0.498、0.386、0.523和0.348。这表明新疆麦区小麦地方品种贮藏蛋白位点存在丰富的遗传多样性。 相似文献
10.
基于SSR标记的30份玉米种质遗传完整性分析 总被引:7,自引:5,他引:2
利用70对SSR引物,对30份玉米地方品种种质进行遗传完整性检测,每一份种质包含来自两个不同繁种年份的供试亚群体。取样方法为DNA混合取样。结果表明,30份种质的供试亚群体之间的遗传相似系数除红包谷(统一编号00230080)为0.77外,其他都大于0.80。聚类分析表明,除二黄(统一编号00210055)和红包谷两份种质的亚群体出现分支外,其他28份种质亚群体分支都按照同一种质群分别聚类。本文同时探讨了个别种质亚群体之间遗传分化的原因,以及SSR标记作为玉米种质遗传完整性检测方法的可行性。 相似文献
11.
种子老化对玉米种质资源遗传完整性变化的影响 总被引:13,自引:3,他引:10
对经老化处理得到的不同发芽率水平的玉米地方品种条花糯进行农艺性状观察和SSR分子标记分析.结果表明,种子发芽率水平下降影响出苗植株中芽鞘和叶鞘颜色的比率.当发芽率降到32%时,浅紫色芽鞘植株的比率降至0.当发芽率下降时,浅紫色叶鞘植株的比率升高,而白色叶鞘植株的比率则下降.经SSR分析发现,低发芽率群体的多态性条带百分率、等位基因数、有效等位基因数、基因多样性指数、Shannon指数等遗传参数,与对照群体的遗传参数相比都有所下降,表明老化处理后群体内的遗传多样性低于对照群体的遗传多样性,群体内遗传变异出现下降.本试验结果表明,植株形态标记和SSR分子标记可以作为老化种子遗传完整性变化的检测方法,同时认为对于异质种质资源材料,低的发芽率更新标准不利于种质资源遗传完整性的保持. 相似文献
12.
利用分子标记分析遗传多样性时的玉米群体取样策略研究 总被引:23,自引:3,他引:20
利用分子标记技术对玉米种质资源进行遗传多样性分析对种质资源的保存和利用具有重要的指导意义。但是,在对地方品种和育种群体这些开放授粉群体进行大规模遗传多样性分析时,取样方法将会严重影响到研究结果和工作效率。本研究用2个育种群体和3个地方品种为试材,利用微卫星(SSR)标记对每个群体100个个体及其组成的不同随机混合样品进行了分子检测。结果表明,不同群体的群体内遗传变异大小存在差异;相同数目的个体随机混合的不同样品间的检测结果基本相同;不同数目的个体混合的样品间存在一定程度的差异,并且与材料本身的遗传变异大小有一定关系。考虑到结果的科学性和工作的可行性,建议在利用分子标记(如SSR)进行地方品种和育种群体的遗传多样性评估时,随机选取30个个体组成混合样(或用15个个体组成2个混合样)来代表1个地方品种或育种群体进行分子鉴定。 相似文献
13.
湖南同名地方稻资源SSR标记及表现型的比较分析 总被引:1,自引:0,他引:1
本研究以湖南种质库中保存的不同来源的同名湖南地方稻种质11组(同近名为1组)共136份为研究材料,进行SSR分子标记及农艺性状比较分析,目的是评价湖南同(近)名地方稻的遗传差异程度,为同(近)名地方稻种质资源的保存、供种以及重点利用种质遴选提供理论依据。研究结果表明,各组同名材料的表型遗传距离数值变化较大,各组最大遗传距离变幅1.25(D6/D13)~1.51(G1/G5),最小遗传距离变幅0.16(E7/E9)~0.81(B2/B11)。各组同名材料的SSR标记相似系数差异也大,最小相似系数变幅0.38~0.71,最大相似系数变幅0.86~1.00;同组内同(近)名材料交叉聚类。基于表型性状遗传距离与基于SSR标记遗传相似系数判别组内材料间遗传关系的结果有一致的,也有存在一定差异的。C8/C11、D16/D18、G1/G2、M2/M3、M2/M6、M3/M6、N2/N4、N5/N6、F2/F25、P3/P4的SSR标记相似系数达0.95以上,而其表现型却有1~3个性状存在有统计学意义的差异,说明供试同名材料有明显变异,即使同(近)名但也都值得保存。同时也证实了24对SSR标记分析同名地方稻遗传多样性的不足。 相似文献
14.
Allinne C Mariac C Vigouroux Y Bezançon G Couturon E Moussa D Tidjani M Pham JL Robert T 《Genetica》2008,133(2):167-178
We studied the regional genetic diversity and seed exchange dynamics of pearl millet landraces in south-western Niger. The genetic study was based on AFLP markers. We found significant genetic differentiation between landraces in different geographical areas of south-western Niger. However, the degree of differentiation was low insofar as only 1.9% of the total molecular diversity was due to regional differentiation, suggesting a relatively high gene flow. Anthropologic studies on farming practices have suggested that seed exchanges between farmers on a large geographical scale probably make a considerable contribution to this result. In order to test this hypothesis, the effects of seed exchange on the genetic diversity of landraces was analyzed on seed samples from two distant villages in contrasting areas of south-western Niger. Seeds imported by farmers into the southern village of Sina Koara did not differ significantly from locally grown landraces. By contrast, in the northern village of Alzou, several samples were genetically different from locally grown landraces and closer to southern accessions. These data suggest that the seed flow is preferentially from south to north, i.e. from an area with more favorable rainfall conditions. The potential consequences for the genetic diversity and adaptation of northern pearl millet landraces are discussed. 相似文献
15.
D. Z. Skinner 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2000,101(8):1242-1249
Two hypervariable regions of the alfalfa (Medicago sativa L) chloroplast genome were used to describe levels of genetic relatedness among populations. PCR primers were developed to
amplify the hypervariable regions. The frequency of occurrence of fragments of like size between populations was used to develop
a measure of genetic relatedness. Relationships among 135 alfalfa accessions were investigated with principal component and
cluster analyses, based on the genetic distance measures. Distinct clusters were taken as an indication of genetically distinct
lineages. The populations investigated represented collections from world regions defined as the centers of origin of specific
alfalfa germplasm sources, or else represented collections of introduced, and naturally adapted, accessions from agriculturally
advanced regions. In general, this analysis indicated that the accessions from regions of origin of germplasm sources were
largely homogeneous, while accessions from areas of introduction were much more diverse. In some cases, the accessions from
a region of origin formed distinct clusters, suggesting that divergence has resulted in genetically distinct lines persisting
in the original region of origin. Investigation of the stability of the marker fragments through vegetatively, and sexually,
propagated plants indicated stable transmission through the sexual phase. However, one of the two regions underwent a deletion
of 145 bp of one copy of a tandemly repeated 146 bp region in the equivalent of 80 years of vegetative growth.
Received: 18 November 1999 / Accepted: 31 March 2000 相似文献
16.
Pilar Soengas Elena Cartea Margarita Lema Pablo Velasco 《Molecular breeding : new strategies in plant improvement》2009,23(3):389-395
A Brassica oleracea collection of landraces collected in the northwest of Spain is kept at the Gene Bank placed at ‘Misión Biológica de Galicia’.
Landraces of the collection are regenerated from time to time to restore the viability of the seed and to carry on field trials.
The objective of this work is to study the effect of regeneration on the genetic integrity of three accessions of this collection,
and to investigate the possible causes of the genetic changes observed. After characterizing the original populations and
their following regenerated populations by 25 SSRs we concluded that there were significant changes in the population structure
and the allelic frequency of individual loci due to the action of genetic drift, directional selection and probably assortative
mating. Protocols to store and regenerate the accessions should be improved in order to avoid the effect of these forces in
the genetic integrity of the collection.
Research supported by the project PIE20064-01-089 and the Excma. Diputación Provincial de Pontevedra, Spain. 相似文献
17.
The molecular genetic diversity of 404 indigenous landraces from sesame core collection in China were evaluated by 11 SRAP and 3 SSR markers, 175 fragments were generated, of which 126 were polymorphic with an average polymorphism rate of 72%. Jaccard’s genetic similarity coefficients (GS=0.7130), Nei’s gene diversity (h=0.2418) and Shannon’s Information index (I=0.3847) were calculated, a dendrogram of the 404 landraces was made, landraces from various zones were distributed throughout the dendrogram, accessions from different agro-ecological zones were indistinguishable by cluster analysis, geographical separation did not generally result in greater genetic distance, a similar pattern was obtained using principal coordinates (PCO) analysis. As to seven agro-ecological zones, the maximum Nei’s gene diversity (h = 0.2613) and Shannon index (I = 0.3980) values in zone VII indicated that they were genetically more diverse than those in other zones, while the least genetically diverse region was zone III (h = 0.1772, I = 0.2858). Nei’s genetic identity and genetic distance among landraces from seven agro-ecological zones were also analyzed, the genetic relationship of seven zones was inferred using the UPGMA method. This study demonstrated that SRAP and SSR markers were appropriate for evaluation of sesame genetic diversities. There existed extensive genetic diverse among indigenous landraces and the abundance of genetic diversity of landraces in different agro-ecological zones was various. Understanding of these characteristics of indigenous landraces in China can provide theoretical foundation for further collection, effective protection and reasonable utilization of these sesame landraces in breeding. 相似文献
18.
应用APAGE技术对来源于16个国家(地区)96份波斯小麦材料进行醇溶蛋白遗传多样性分析,结果表明,波斯小麦具有丰富的醇溶蛋白等位变异,共分离出55条迁移率不同的带纹。每份材料可电泳出13~26条,平均18.6条,带纹多态性为100%。96份材料共出现了75种电泳图谱类型,其中31份材料共同拥有10种图谱,剩余的65份材料的电泳图谱各不相同。供试材料间GS值变异范围为0.176~1.000,平均值为0.538。聚类分析表明,在GS值0.538水平上供试材料可聚为五大类群,且遗传聚类关系与材料的地理来源有一定的相关性。 相似文献