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1.
中国特有小麦Gli—1、Cli—2和Glu—1位点的遗传多样性 总被引:2,自引:0,他引:2
运用APAGE和SDS-PAGE方法,研究了32份中国特有小麦Gli-l,Gli-2和Glu-l位点的遗传多样性,在14份云南铁壳麦(Triticum aestivum ssp.yunnanese King)中,共出现8种醇溶蛋白事才4种高分子谷蛋白带型,在9份新疆稻麦(T.petropavlovskyi Udacz.et Migusch)中,观察到9种醇溶蛋白带型和5种高分子谷蛋白带型,其中1份新疆稻麦(稻麦2)具有Glu0-DI编码的新亚基2.1+10.1,在这3种中国特有小麦群体中,Gli-l位点分别检测出10,14和11个等位基因,Gli-2位点各具有11,14,和12个等位基因,Glu-1位点也分别出现5,6和8个等位基因,云南铁壳麦,西藏半野生小麦和新疆稻麦群体内的Nei's遗传变异系数分别为0.3798,0.5625和0.5693,这些结果说明,与云南铁壳麦相比,西藏半野生小麦和新疆稻麦群体内的遗传变异相对较大。 相似文献
2.
四川小麦地方品种Gli-1、Gli-2和Glu-1位点的遗传多样性(英文) 总被引:18,自引:0,他引:18
运用APAGE和SDS_PAGE方法 ,研究了 89个四川小麦 (TriticumaestivumL .)地方品种Gli_1、Gli_2和Glu_1位点的遗传多样性。在这些地方品种中 ,总共发现 32种醇溶蛋白带型和 3种高分子谷蛋白带型。在Gli_1、Gli_2和Glu_1位点上 ,分别检测出 14、15和 5个等位基因。在每一个位点上 ,出现频率最高的等位基因分别为Gli_A1a(89% ) ,Gli_B1h (46 % ) ,Gli_D1a (6 5 % ) ,Gli_A2a (6 4% ) ,Gli_B2j (45 % ) ,Gli_D2a (48% ) ,Glu_A1c (99% ) ,Glu_B1b (99% )和Glu_D1a (10 0 % )。四川小麦地方品种的Nei’s遗传变异系数平均为 0 .370 6 ,变幅为 0到 0 .70 87;其中Gli_B2位点的遗传多样性最高 ,而Glu_D1位点最低。同时 ,Gli位点的遗传多样性高于Glu_1位点的遗传多样性 ,但又低于现代品种Gli位点的遗传多样性。这些结果说明四川地方小麦品种的遗传基础狭窄。在研究中 ,“成都光头”与“中国春”的醇溶蛋白和高分子谷蛋白的带型完全一致 ,进一步证实“中国春”是“成都光头”的一个选系。 相似文献
3.
四川小麦地方品种Glt—1,Gli—2和Glu—1位点的遗传多样性 总被引:3,自引:0,他引:3
运用APAGE和SDS-PAGE方法,研究了89个四川小麦(Triticum aestivum L.)地方品种Gli-1、Gli-2、Glu-1位点的遗传多样性,在这些地方品种中,总共发现32种醇溶蛋白带型和3种高分子谷蛋白带型。在Gli-1、Gli-2和Ght-1位点上,分别检测出14.15和5个等位基因。在每一个位点上,出现频率最高的等位基因分别为Gli-Als(89%),Gli-Blh(46 相似文献
4.
采用聚丙烯酰胺凝胶电泳法对中国几种特殊普通小麦的幼芽进行了酯酶同工酶分析。结果表明:同种不同来源的麦酶谱差异不大,较整齐一致,只有个别材料有酶带的增减及沾性强弱有别;对于不同的物种云南铁壳麦与西藏半野生小麦的酶谱很相近似,属同一类群,新疆稻麦慢带较模糊,少第3条酶带归属别一类群。 相似文献
5.
中国特有小麦中杂种黄化基因Chl和提型胞质育性恢复基因的分布研究 总被引:4,自引:0,他引:4
本研究以T型不育系QA1104(具有杂种黄化基因Ch2)和Khapli(具有杂种黄化基因Ch1)为测验种,对中国特有小麦等六倍体小麦类型和一些四倍体小麦类型中的T型胞质育性恢复基因和杂种黄化Ch1基因的分布进行了研究。结果表明:中国白麦子类型、西藏半野生小麦、云南铁壳麦、圆锥小麦(矮兰麦)一节节麦人工合成双二倍体以及中国圆锥小麦等类型中未发现T型育性恢复基因和杂种黄化基因Ch1;在斯卑尔脱小麦杜哈米林类型和野生二粒小麦中发现有T型育性恢复基因的存在,但是不存在杂种黄化基因Ch1。在新疆稻麦和中国波兰小麦中未发现有T型胞质育性恢复基因的存在。但在新疆稻麦中普遍含有杂种黄化基因Ch1,在波兰小麦中一些居群有Ch1基因、一些居群无。这暗示:新疆稻麦可能来源于含有Ch1基因的波兰小麦类型,而且可能是起源于波兰小麦与节节麦的天然杂交并经过双二倍体化途径而形成的。 相似文献
6.
云南铁壳麦高分子量麦谷蛋白亚基组成及其遗传多样性分析 总被引:5,自引:3,他引:2
以36份云南铁壳麦为试验材料,采用SDS-PAGE法分析了Glu-1位点编码的高分子量麦谷蛋白亚基(HMW-GS)及组成。结果表明,在Glu-A1位点上检测到3种(N,2*和1)亚基类型,Glu-B1位点上共检测到5种(7、7 8、17 18、13 16和6 8)亚基类型,Glu-D1位点上只检测到1种(2 12)亚基类型。共检测到6种亚基组成类型,即:N、7、2 12,N、7 8、2 12,2*、7 8、2 12,2*、17 18、2 12,1、6 8、2 12和1、13 16、2 12。云南铁壳麦的HMW-GS为普通小麦已知变异类型的18%,3个位点的Nei's遗传变异系数顺序为Glu-B1(0.5734)>Glu-A1(0.2484)>Glu-D1(0),表明云南铁壳麦属较原始类型,Glu-D1位点未发生变异。品质评分最高分为8分(3份材料),平均为5.2分。同时86%的云南铁壳麦具有适合制作优质手工馒头的高分子量麦谷蛋白亚基(N和2 12),42%的云南铁壳麦具有亚基组成类型(1、7 8、2 12和N、7 8、2 12),这些材料可作为云南小麦馒头品质改良的材料。 相似文献
7.
西藏半野生小麦高分子量麦谷蛋白亚基组成分析 总被引:1,自引:0,他引:1
应用SDS-PAGE分析了50份西藏半野生小麦(Triticum aestivum ssp.tibetanum Shao)的高分子量麦谷蛋白亚基等位基因组成。结果表明,43份材料的HMW-GS组成是同质的,7份材料为异质。供试材料共有7种HMW GS组合,以Null、7 8、2 12为主要类型,占所分析材料的68.4%。在Glu-1位点共检测到10种等位基因,Glu- A1位点2种,Glu~B1位点4种,Glu~D1位点4种。Null(96%)、7 8(80.4%)和2 12(94.9%)分别是Glu-A1、 Glu-B1和Glu~D1位点上主要的等位基因。在Glu-B1位点还新发现2个亚基,暂时分别命名为8*和7**。说明西藏半野生小麦中存在着较广泛的HMW-GS等位基因变异,是小麦品质育种潜在的可利用的遗传资源。 相似文献
8.
新疆冬春麦区小麦地方品种贮藏蛋白遗传多样性研究 总被引:3,自引:1,他引:2
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-Ⅰ位点共有19种等位基因,其中Glu-Al位点3种,Glu-Bl位点7种,Glu—D1住点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、174-18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ω4个分区多样性指数(H1)分别为0.498、0.386、0.523和0.348,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
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.
不同硬度类型小麦高分子量谷蛋白亚基组成及遗传多样性分析 总被引:2,自引:0,他引:2
为了在小麦品质育种中充分利用品种资源,以引进的57份小麦品种(系)为试验材料,采用SDS-PAGE和单籽粒硬度仪(SKCS)分析了这些品种(系)的高分子量谷蛋白亚基(HMW-G S)组成及其籽粒硬度.共检测到13种亚基和21种亚基组合,30份材料具有5 10亚基,10份2*,9份17 18,1份13 16.5 10和2*在硬质麦中出现的频率较混合麦高,在软质麦中的频率最低,17 18在混合麦中的频率较高.HMW-G S组合中,N u ll、7 9、2 12和1、7 8、2 12的频率较高,分别为17.5%和14.0%,个别品种还同时聚合有1A、1B、1D上的优质亚基.参试品种(系)含硬质麦32份(1级20份、2级12份),混合麦15份(2级3份,3级12份),软质麦10份(4级6份,5级4份),籽粒硬度的分布范围为12~74.春小麦和冬小麦材料N e i s平均遗传变异系数分别为0.550 8和0.573 3,表明春小麦的高分子量谷蛋白位点的遗传变异略低于冬小麦;春小麦和冬小麦A、B和D基因组的N e i s平均遗传变异系数分别为0.497 5、0.648 7和0.540 3,说明G lu-B 1位点的遗传多样性最高,其次是G lu-D 1位点,G lu-A 1位点最低. 相似文献
11.
WEI Yu-Ming ZHENG You-Liang ZHOU Yong-Hong LIU Deng-Cai LAN Xiu-Jin YAN Ze-Hong ZHANG Zhi-Qing 《植物学报(英文版)》2001,43(8):834-839
Genetic diversity at Gli-1, Gli-2 and Glu-1 loci was investigated in 32 accessions of Chinese endemic wheat by using acid polyacrylamide gel electrophoresis (APAGE) and sodium dodecyl sulfate (SDS)-PAGE. There were 8 gliadin and 3 high-molecular-weight (HMW)-glutenin patterns in 14 Yunnan hulled wheat ( Triticum aestivum ssp. yunnanese King) accessions, 9 gliadin and 4 HMW-glutenin patterns in 9 Tibetan weedrace ( T. aestivum ssp. tibetanum Shao ) accessions, and 9 gliadin and 5 HMW-glutenin patterns in 9 Xinjiang rice wheat ( T. petropavlovskyi Udacz. et Migusch.) accessions. One accession (i.e. Daomai 2) carried new subunits 2.1+10.1 encoded by Glu-D1 . Among the three Chinese endemic wheat groups, a total of 10, 14 and 11 alleles at Gli-1 locus; 11, 14 and 12 alleles at Gli-2 locus; and 5, 6 and 8 alleles at Glu-1 locus were identified, respectively. Among Yunnan hulled wheat, Tibetan weedrace and Xinjiang rice wheat, the Nei's genetic variation indexes were 0.3798, 0.5625 and 0.5693, respectively. These results suggested that Tibetan weedrace and Xinjiang rice wheat had higher genetic diversity than Yunnan hulled wheat. 相似文献
12.
Genetic diversity at Gli-1, Gli-2 and Glu-1 loci was investigated in 89 Sichuan wheat ( Triticum aestivum L.) landraces by using acid polyacrylamide gel electrophoresis (APAGE) and SDS-PAGE. In these landraces, a total of 32 gliadin and 3 high-molecular-weight (HMW) glutenin patterns were observed. In total, 14, 15 and 5 alleles were identified at Gli-1, Gli-2 and Glu-1, respectively. At each locus, the alleles in higher frequency were Gli-A1a (89%), Gli-B1 h (46%), Gli-D1a (65%), Gli-A2a (64%), Gli-B2j (45%), Gli-D2 a (48%), Glu-A1c (99%), Glu-B1b (99%) and Glu-D1a (100%). The Nei's genetic variation index (H) of Sichuan wheat landraces was 0.3706, varying from 0 to 0.7087. The highest genetic diversity was found at Gli-B2 locus, while the lowest was found at Glu-D1 . The genetic diversity at Gli loci was higher than that of Glu-1 loci among these landraces, but it was much lower than that of modern wheat cultivars. These results indicated a narrow genetic base of Sichuan wheat landraces. In this study, “Chengdu-guangtou” had the identical gliadin and HMW-glutenin patterns with “Chinese Spring”, further supporting the proposal that “Chinese Spring” is a strain of “Chengdu-guangtou”. 相似文献
13.
利用SSR标记分析云南、西藏和新疆小麦的遗传多样性 总被引:14,自引:0,他引:14
用185对SSR引物对52份中国西部特有小麦的遗传多样性进行了研究分析。在31份云南小麦材料中,共检测到488个等位变异,每一个SSR引物可检测到1至9个等位变异,平均为2.64个;平均PIC值为0.2764。在15份西藏小麦材料中,共检测到472个等位变异,每个引物可扩增出1到8个等位变异,平均为2.55个;平均PIC值为0.3082。在6份新疆小麦材料中,共检测到308个等位变异,每一个SSR引物可检测1到5个等位变异,平均为1.66个;平均PIC值为0.1944。185对SSR引物在云南、西藏和新疆小麦的21条染色体、7个部分同源群和3个染色体组上检测到的等位位点的多态性存在明显差异。云南、西藏和新疆小麦均以3B染色体较高,而1D染色体最低;在7个部分同源群中,均以第三部分同源群最高,第六部分同源群最低;在A、B和D染色体组上,均以B染色体组最高,D染色体组最低,A染色体组居中。利用185对SSR引物计算了云南、西藏和新疆小麦群体内及其群体间的遗传距离(GD)和平均遗传距离,结果显示,西藏小麦和云南小麦群体内的平均遗传距离要高于新疆小麦,而云南小麦和西藏小麦间的平均遗传距离低于两者与新疆小麦的平均遗传距离。聚类分析结果也表明,云南小麦和西藏小麦的亲缘关系较近,但两者与新疆小麦的亲缘关系相对较远。 相似文献
14.
Chromosome segmental introgression lines (ILs) are an effective way to utilize germplasm resources in crops. To improve agronomic traits of wheat cultivar (Triticum aestivum) Shi 4185, four sets of ILs... 相似文献
15.
应用微卫星标记研究西藏野生大麦的遗传多样性 总被引:9,自引:0,他引:9
以西藏不同地区的106份野生大麦为材料,其中包括50份野生二棱大麦(HS),27份野生瓶形大麦(HL)和29份野生六棱大麦(HA),用Liu等(1996)发表的SSR连锁图的每个连锁群的两个臂的不同位置上选取3~5个共30个SSR标记,研究了西藏3类野生大麦的遗传多样性。结果表明,这3类野生大麦在遗传组成及等位变异频率分布上存在着明显的遗传分化。在总样本中,共检测到229个等位变异,平均每个SSR位点检测到7.6个等位变异,其中70个为这3类野生大麦间共同的等位变异,等位变异数在这3类野生大麦间有明显的差异,亚种问的遗传多样性明显高于亚种内的遗传多样性。其遗传多样性大小顺序为HS〉HL〉HA。聚类分析表明,野生二棱大麦、野生六棱大麦分别聚在不同的两类,而野生瓶形大麦中各有约50%的材料分别聚在这两类。根据本研究及前人研究结果,我们认为中国栽培大麦是从野生二棱大麦经野生瓶形大麦向野生六棱大麦进化的。该结果支持了栽培大麦起源的“野生二棱大麦单系起源论”的观点。 相似文献
16.
The diversity of alleles of gliadin loci Gli-U1 and Gli-M(b) 1 was studied in the tetraploid species Aegilops biuncialis (UUM(b)M(b)). The collection of 41 Ae. biuncialis accessions and F2 grain obtained from five crossing combinations provides material used in this study. Gliadins were separated by electrophoresis in polyacrylamide gel conducted in the acidic medium. To determine genomic affiliation (Uor M(b)) of components of Ae. biuncialis gliadin pattern, accessions of Ae. umbellulata and Ae. comosa were analyzed. In Ae. biuncialis accessions, 14 alleles were identified at the locus Gli-U1 and 12 alleles, at the locus Gli-M(b) 1. The results testify to a markedly high degree of allele diversity at major gliadin-coding loci of chromosomes belonging to Ae. biuncialis homeologous group 1. 相似文献
17.
R. W. Ward Z. L. Yang H. S. Kim C. Yen 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1998,96(2):312-318
Chinese accessions of Triticum tauschii and T. aestivum L. from the Sichuan white (SW), Yunnan hulled (YH), Tibetan weedrace (TW), and Xinjiang rice (XR) wheat groups were subjected
to RFLP analysis. T. tauschii and landraces of T. aestivum from countries in Southwest Asia were also evaluated. For T. tauschii, a west to east gradient was apparent where the Chinese accessions exhibited less diversity than those from Southwest Asia.
Compared to the Southwest Asian gene pool, the Chinese T. tauschii was highly homogeneous giving a low frequency of polymorphic bands (16%) and banding patterns (1.33 per probe) with 75 RFLP
probe-HindIII combinations. Accessions of T. tauschii from Afghanistan and Pakistan were genetically more similar to the Chinese T. tauschii than those from Iran. Of 368 bands found for 39 Chinese hexaploid wheat accessions with 63 RFLP probe-HindIII combinations, 28.3% were polymorphic with an average of 2.6 banding patterns per probe and 5.0 bands per genotype. The
individual Chinese landrace wheat groups revealed less variation than those from Afghanistan, Iran, and Turkey. When classified
into country based groups, however, the diversity level over all Chinese landraces was greater than that of some Southwest
Asian landraces, especially those from Afghanistan and Iran . The XR wheat group was genetically distinct from the other three
Chinese landrace groups and was more related to the Southwest Asian landraces. The TW group was genetically similar to, but
more diverse than, the SW and YH groups. The Chinese landraces had a higher degree of genetic relatedness to the Southwest
Asian T. tauschii, particularly to accessions from Iran, rather than to the Chinese T. tauschii. ‘Chinese Spring’ was most related to ‘Chengdu-guang-tou’, a cultivar from the SW wheat group.
Received: 13 May 1997 / Accepted: 19 September 1997 相似文献
18.
Tibetan semi-wild wheat (Triticum aestivum ssp. tibetanum Shao) is one of the Chinese endemic hexaploid wheat genetic resources, distributed only in the Qinghai-Xizang Plateau of China. It has special characters, such as a hulled glume and spike disarticulation. However, seed dormancy, another important character for wheat resistance to pre-harvest sprouting, was rarely reported. Seed dormancy of more than 10 Tibetan semi-wild wheat accessions was evaluated, and their germinations were 0% or near 0% with both treatments of threshed seeds and intact spikes at hard dough stage. Tibetan semi-wild wheat accession Q1028 was investigated for its seed dormant characters by testing the seed germination percentages of intact spikes, seeds with bract powder, normal seeds, seeds with pierced coat, and sectioned embryos. It was observed that embryo dormancy of Q1028 accounted for its seed dormancy. Using threshed seeds and intact spikes at hard dough stage, the inheritance of seed dormancy was carried out using the F1, F2, F3 and F2BC1 populations of the cross between Q1028 and a wheat line 88-1643, susceptible to preharvest sprouting. The germinations of seeds and intact spikes in F1 plants were 1.0% and 0.9%, respectively. It indicated that seed dormancy of Q1028 was inherited as a dominant trait. From the genetic analysis of the F2, F3 and F2BC1 populations it was found that the strong seed dormancy of Q1028 was controlled by two dominant genes. 相似文献