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1.
应用SRAP标记分析黑芝麻核心种质遗传多样性   总被引:9,自引:0,他引:9  
车卓  张艳欣  孙建  张秀荣  尚勋武  王化俊 《作物学报》2009,35(10):1936-1941
利用SRAP分子标记技术对中国芝麻资源核心收集品中的黑芝麻种质进行遗传多样性分析。结果表明,13对引物组合对100份黑芝麻核心种质共扩增出稳定清晰的条带182条,其中多态性条带126条,占69.2%,每对引物组合的条带数和多态性带数分别为14.0个和9.7个;供试材料间成对遗传相似系数介于0.469~0.986,平均为0.726,通过UPGMA法,在遗传相似系数为0.68处可将供试材料聚为5个类群,表明黑芝麻核心种质具有较丰富的遗传多样性,聚类结果与地理分布没有明显的关系;遗传多样性指数是南方黑芝麻核心种质(0.3557)>中部种质(0.3415)>北方种质(0.2986)。本研究结果较全面反映了中国保存的黑芝麻种质资源遗传多样性特点,为我国黑芝麻资源进一步考察收集和引进,以及优异黑芝麻基因资源挖掘和育种利用提供了理论依据。  相似文献   

2.
Genetic diversity within spelta and macha wheats based on RAPD analysis   总被引:3,自引:0,他引:3  
Genetic diversity in a crop species is basic to improvement of the species and can be estimated at the molecular level. The objective of this study was to estimate genetic diversity within and between spelta and macha wheats. Random amplified polymorphic DNA (RAPD) analysis was conducted on 69 spelta and 32 macha wheat accessions. The classification of spelta and macha accessions, based on Jaccard genetic similarity coefficients for RAPD markers, was consistent with their geographic origin. The results indicated that the germplasm of macha wheat was more diverse than that of spelta wheat. In the dendrogram of macha wheat, four spelta-like accessions grouped together, separate from the remaining macha accessions, suggesting that these accessions were misclassified. In addition, accessions with identical RAPD patterns were found, indicating that these accessions were probably duplicated. Thus RAPD analysis can be used to estimate genetic diversity and identify duplicate accessions in wheat germplasm collections. This revised version was published online in August 2006 with corrections to the Cover Date.  相似文献   

3.
Genetic variation and population structure among 1603 soybean accessions, consisted of 832 Japanese landraces, 109 old and 57 recent Japanese varieties, 341 landrace from 16 Asian countries and 264 wild soybean accessions, were characterized using 191 SNP markers. Although gene diversity of Japanese soybean germplasm was slight lower than that of exotic soybean germplasm, population differentiation and clustering analyses indicated clear genetic differentiation among Japanese cultivated soybeans, exotic cultivated soybeans and wild soybeans. Nine hundred ninety eight Japanese accessions were separated to a certain extent into groups corresponding to their agro-morphologic characteristics such as photosensitivity and seed characteristics rather than their geographical origin. Based on the assessment of the SNP markers and several agro-morphologic traits, accessions that retain gene diversity of the whole collection were selected to develop several soybean sets of different sizes using an heuristic approach; a minimum of 12 accessions can represent the observed gene diversity; a mini-core collection of 96 accession can represent a major proportion of both geographic origin and agro-morphologic trait variation. These selected sets of germplasm will provide an effective platform for enhancing soybean diversity studies and assist in finding novel traits for crop improvement.  相似文献   

4.
The genetic diversity and the relationships among a collection of mustard (B. juncea) germplasm, including 41 accessions collected from Pakistan, 6 oilseed cultivars/ lines and 5 Japanese vegetable cultivars, were evaluated using random amplified polymorphic DNA (RAPD) markers. A total of 198 polymorphic amplified products were obtained from 30 decamer primers. Of these, 14 were unique to the accession PAK-85835 and 37 were specific to PAK-85839. Based on pair-wise comparisons of RAPD amplification products, genetic similarity was estimated using similarity coefficients of Nei & Li (1979) and a dendrogram was constructed using the unweighted pair-group method with arithmetic averages (UPGMA). Cluster analysis based on these genetic similarities placed most of the collected germplasm and oilseed cultivars/lines close to each other, showing a low level of polymorphism between the oilseed accessions collected in Pakistan. However, the clusters formed by the oilseed collections and cultivars were distinct from those formed by the vegetable cultivars. A low level of genetic variability of oilseed mustard in Pakistan was attributed to the selection for similar traits and horticultural uses. The farmers' preference for more remunerative crops and perhaps the close parentage of these accessions further contributed towards their little diversity. The study demonstrated that the RAPD is a simple and fast technique to compare the genetic relationships and the patterns of variation among accessions of this crop. This revised version was published online in August 2006 with corrections to the Cover Date.  相似文献   

5.
Genetic diversity of traditional sesame landraces and related wild species in East Africa remains largely unexplored. Knowing what fraction of the available genetic diversity is actually used by the farmers is of central importance for understanding how cultivation shapes the genetic structure of a crop and for the management of biodiversity preservation. Genetic diversity in cultivated sesame and related wild species in East Africa was determined using inter-simple sequence repeats (ISSR). Six reliable ISSR primers generated 51 amplification fragments of which 36 (70.6%) were polymorphic. The number of amplified fragments ranged from 7 to 12 with a mean of 8.5 fragments per primer. The overall gene diversity and Shannon’s index were 0.28 and 0.34, Jaccard’s similarity coefficient ranged from 0.26 to 0.96, with an average of 0.67. Forty-six accessions of sesame were divided into six clusters, although the clustering did not indicate any clear division among sesame accessions based on their geographical locations. Each wild species was more distant from cultivated sesame than from other wild species, indicating that no cross-pollination with these wild species occurred during sesame domestication. These results showed a relatively high genetic diversity in sesame and related wild species. Indian-1 and Indian-2 accessions showed a good amount of genetic divergence. The genetic diversity data uncovered in this study can be exploited to improve traditional landraces of sesame in East Africa.  相似文献   

6.
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7.
明确花生种质资源的遗传多样性和分布规律,对于发掘优良种质资源,选配优良亲本,拓宽育成品种的遗传基础具有重要意义。核心种质为种质资源的研究、评价和鉴定带来了方便。本研究从206对SSR引物中筛选26对引物对我国花生小核心种质和ICRISAT微核心种质共466份资源进行了遗传多样性分析,相似系数为0.49~0.99,鉴定出遗传差异最大的种质L2刚果(中国花生资源)与ICG12625(ICRISAT资源),相似系数为0.49。分析结果表明,多粒型花生的多态性信息量(0.761)和遗传多样性指数(0.97~1.11)均最大(平均相似系数最小,0.73~0.76),其次是普通型花生。中国花生种质资源与ICRISAT资源存在较大差异,尤其是ICRISAT的赤道型材料ICG12625,与中国花生资源的差异最大。相似系数和遗传多样性指数的分析结果均表明,我国花生种质资源的遗传多样性比ICRISAT资源丰富。  相似文献   

8.
S. L. Dwivedi    S. Gurtu    S. Chandra    W. Yuejin  S. N. Nigam   《Plant Breeding》2001,120(4):345-349
Assessment of genetic diversity in a crop species is prerequisite to its improvement. The use of germplasm with distinct DNA profiles will help to generate genetically diversified breeding populations. The aims of the present experiment were to study molecular diversity among selected groundnut accessions and identify those with distinct DNA profiles for mapping and genetic enhancement. Twenty‐six accessions and eight primers of a 10‐mer were selected for random amplified polymorphic DNA assay. The genetic similarity (Sij) ranged from 59.0% to 98.8%, with an average of 86.2%. Both multidimensional scaling and unweighted pair‐group method with arithmetic averages (UPGMA) dendrograms revealed the existence of five distinct clusters. However, this classification could not be related to known biological information about the accessions falling into different clusters. Some accessions with diverse DNA profiles (ICG 1448, 7101, and 1471, and ICGV 99006 and 99014) were identified for mapping and genetic enhancement in groundnut.  相似文献   

9.
A total of 16,619 ESTs sequences (SSRs) of sesame (Sesamum indicum L.) were mined from Genbank. From sequences, 156 primer pairs were designed and characterized to determine the diversity among 49 sesame accessions. Twenty SSRs were found to be polymorphic and the number of alleles ranged from two to five per locus. The allele size varied from 101 to 399 bp. The average PIC value of the 20 SSR loci was 0.72 ranging from 0.49 (SEM-12-68) to 0.90 (SEM-12-27). Dendrogram analysis grouped the 49 genotypes into five separate clusters exhibiting a genetic similarity coefficient from 0.59 to 1.0. Hence, these EST-derived SSRs markers could be useful in assessing the diversity of sesame accessions and could also help in identifying diverse parents for sesame improvement programs.  相似文献   

10.
Grain legumes contribute significantly to total world food production. Legumes are the primary source of dietary proteins in many developing countries, where protein hunger and malnutrition are widespread. Grain legumes germplasm constitute ~15% of the 7.4 M accessions preserved globally. Nearly, 78% of the CGIAR??s, 0.217 M accessions, have been characterized, compared to 34% of national genebank collections. Interestingly, limited data on grain quality are available as the primary focus has been on morpho-agronomic traits. Clearly, more resources should be targeted on biochemical evaluation to identify nutritionally rich and genetically diverse germplasm. The formation of core and mini core collections has provided crop breeders with a systematic yet manageable entry point into global germplasm resources. These subsets have been reported for most legumes and have proved useful in identifying new sources of variation. They may however not eliminate the need to evaluate entire collections, particularly for very rare traits. Molecular characterization and association mapping will further aid to insights into the structure of legume diversity and facilitate greater use of collections. The use of high resolution elevational climate models has greatly improved our capacity to characterize plant habitats and species?? adaptive responses to stresses. Evidence suggests that there has been increased use of wild relatives as well as new resources resulting from mutagenesis to enhance the genetic base of legume cultigens.  相似文献   

11.
Knowledge of genetic diversity in germplasm is essential for formulating effective germplasm collection, conservation, utilization strategies in and crop improvement programs. It also provides an opportunity to take corrective steps infusing new genes to avoid risks associated with a narrow genetic bases. Genetic diversity analysis of 119 lentil genotypes of including 83 germplasm and 36 exotic genotypes from International Center for Agricultural Research in the Dry Areas was studied using 27 primers of simple sequence repeat (SSR) marker. Molecular analysis of variance showed variations of 82% within and 18% of the among population variance was explained. Degree of polymorphism observed among the populations was 100%. A total 122 alleles were detected, with 2 to 7 alleles per locus, with a mean of 4.52 alleles per locus. The estimated gene diversity value for 27 loci was 0.64. The average Shannon’s information index value of 1.19 was obtained showed the existence of high genetic variation within the genotypes. The genetic similarity indices ranged from 0.21 to 1.00. The SSR markers showed an average polymorphic information content (PIC) value of 0.58. Cluster analysis grouped the genotypes into five major clusters as distinct genetic populations. Diversity analyses revealed the existence of a high level of genetic variation among genotypes. This molecular diversity information provides a basis for future germplasm collection, utilization, and conservation strategies in gene banks and introducing exotic germplasm to widen the genetic base of the current lentil breeding population.  相似文献   

12.
L. X. Wang    R. X. Guan    Y. H. Li    F. Y. Lin    W. J. Luan    W. Li    Y. S. Ma    Z. X. Liu    R. Z. Chang    L. J. Qiu 《Plant Breeding》2008,127(1):56-61
To use, maintain and increase crop germplasm collections efficiently, it is important to assess the diversity of these collections. In this study, 1383 accessions of Chinese spring sowing soybean ( Glycine max ) were used for SSR analysis. In total, 1111 alleles were detected among these collections with an average number of alleles (NA) of 18.52 per locus. The genetic diversity index (PIC value) varied from 0.456 to 0.928 with an average of 0.815. Intensive breeding of cultivars have led to a decrease of genetic diversity. Random-repeated sampling within landraces of different geographical regions suggested that the ranking of both average NA and PIC values among different geographical regions were North spring soybean (Nsp) > South spring soybean (Ssp) > Northeast spring soybean (NEsp), but because of the uneven distribution of SSR variation patterns, the differences between them did not reach a significant level. There was a relationship between genetic distances and geographical distances among soybean populations from different regions, indicating a certain degree of geographical differentiation among Chinese soybean germplasm collections.  相似文献   

13.
遴选黄麻核心种质可为黄麻种质创新及新品种选育奠定基础。本研究以300份黄麻种质资源为基础,基于SSR分子标记和农艺性状考察,结合地理来源构建核心种质。结果表明,11个农艺性状变异系数变幅在13.06%~84.87%,表现出丰富的遗传多样性。按农艺性状聚类分析可划分为8个类群,按分子标记聚类可划分为10个类群。结合2个聚类分析、地理位置并按比例取样,建立一个由108份品种(系)组成的预选核心种质。采用44对SSR引物对其进行遗传差异分析,在遗传相似系数为0.65时,可把108份品种(系)分成圆果种和长果种两大类。根据遗传差异分析,剔除遗传相似系数大于或等于0.85的遗传冗余,获得84份品种(系)的核心种质,其中圆果种60份和长果种24份。比较84份核心种质与300份种质的农艺性状变异系数及Shannon-Wiener指数发现,两者之间相差不大,表明遴选的84份核心种质可以最大限度代表300份黄麻种质资源的遗传多样性加以利用和保存。  相似文献   

14.
Fifteen amplified fragment length polymorphism (AFLP) EcoRI/MseI‐based primer combinations with five selective bases (Eco RI‐ANN, MseI‐CN) were used to estimate genetic diversity among 45 line varieties of cultivated cornsalad and 19 genebank accessions classified into nine different species related to cornsalad. Polymorphic fragments were scored for calculation of Jaccard's coefficient of genetic similarity (GS). The average GS estimate in elite germplasm (GS = 0.90) was substantially higher than in exotic germplasm (GS = 0.47). UPGMA‐cluster analysis revealed genetic relationships among recently bred varieties, old varieties and genebank accessions. Analysis of molecular variance indicated almost threefold variability within sets compared with between sets due to a high level of polymorphism among wild species. Sources for increasing genetic diversity in elite germplasm of cornsalad were suggested and a duplicate among the genebank accessions was detected. AFLPs could be considered a powerful tool for genetic diversity estimation in cornsalad germplasm and are recommended for systematic fingerprinting of remaining cornsalad species.  相似文献   

15.
S. D. Basha  M. Sujatha 《Euphytica》2007,156(3):375-386
Jatropha curcas (Euphorbiaceae) is an oil-bearing species with multiple uses and considerable potential as a bioenergy crop. The present investigation has been undertaken to assess the extent of genetic diversity in a representative set of 42 accessions of J. curcas encompassing different crop growing regions in India along with a non-toxic genotype from Mexico as a prelude for utilization of promising and genetically divergent materials in the breeding programmes. Molecular polymorphism was 42.0% with 400 RAPD primers and 33.5% with 100 ISSR primers between accessions indicating modest levels of genetic variation in the Indian germplasm. The within-population variation based on RAPD polymorphism was 64.0% and was on par with the inter-population variation. Polymorphic ISSR markers have been identified that could differentiate the Indian accessions from the Mexican genotype and two of them were converted to SCAR markers. The SCAR primer pair ISPJ1 amplified a 543 bp fragment in all the Indian populations, while ISPJ2 with a specific amplicon of 1,096 bp was specific to the Mexican genotype. Population-specific bands have been identified for the accession from Kerala (2 RAPD markers), Neemuch-1 from Rajasthan (1 each of RAPD and ISSR markers) and the non-toxic genotype from Mexico (17 RAPD and 4 ISSR markers), which serve as diagnostic markers in genotyping. The study indicates an immediate need for widening the genetic base of J. curcas germplasm through introduction of accessions with broader geographical background.  相似文献   

16.
Eight Lathyrus sativus L. accessions from a variety of geographic origins were used to study intraspecific genetic diversity using RAPD analysis. Fourteen decamer primers produced 64 amplification products, 50% of which were polymorphic between the samples. Jaccard's coefficient of genetic similarity was calculated between samples and a dendrogram was constructed by an unweighted pair-group method with arithmetical averages (UPGMA). The dendrogram showed that most of the L. sativus plants clustered into accessions or common geographical areas. The average genetic similarity coefficient within accessions was 0.12 and between accessions was 0.20, indicating a low level of intraspecific genetic variation. Interspecific genetic diversity and phylogenetic relationships of eight Lathyrus species, including L. sativus and Pisum sativum L. (field pea) were examined using 14 decamer primers which produced 283 amplification products. All amplification products were polymorphic across the nine species. In the dendrogram the Lathyrus species clustered into three distinct groups which correlated with the Sections Lathyrus, Clymenum and Linearicarpus. This supports traditional taxonomic classifications of the genus Lathyrus which are based on morphological traits. Of the species from Section Lathyrus, L. gorgoni and L. cicera were the most similar to L. sativus. The results suggest that a strategy of breeding for producing lines of L. sativus with increased genetic variation would be effectively achieved through hybrid production between accessions from wide geographic areas particularly the Mediterranean area and the Indian subcontinent. However, the most effective method would be introgression of germplasm from other species in Section Lathyrus. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

17.
D. H. Kim    G. Zur    Y. Danin-Poleg  S. W. Lee    K. B. Shim    C. W. Kang  Y. Kashi 《Plant Breeding》2002,121(3):259-262
Inter‐simple sequence repeats (ISSR) polymorphism was used to determine genetic relationships among 75 Sesamum indicum L. accessions of Korean and exotic sesame. Fourteen reliable ISSR primers were selected for the assessment of genetic diversity, yielding 79 amplification products. Of these polymerase chain reaction products, 33% revealed polymorphism among the 75 accessions. Genetic distances ranged from 0 to 0.255, with a mean genetic distance of 0.0687. The 75 accessions were divided into seven groups on the basis of unweighted pair‐group method with arithmetic averages (UPGMA) cluster analysis. The largest group consisted of 25 Korean cultivars, eight Korean breeding lines and 17 world‐wide accessions. The other groups included 25 accessions, several of which contained useful traits. The dendrogram did not indicate any clear division among sesame accessions based on their geographical origin. However, all Korean sesame cultivars except ‘Namsankkae’ were clustered in the same group, indicating a narrow gene pool. Some of the Korean breeding lines were spread along the dendrogram, showing enlargement of genetic diversity. The genetic diversity data uncovered in this study can be used in future breeding programmes.  相似文献   

18.
以SRAP和EST-SSR标记分析芝麻种质资源的遗传多样性   总被引:19,自引:0,他引:19  
利用SRAP和EST-SSR分子标记对192份国内外芝麻种质资源进行遗传多样性分析。结果表明,2种标记都能很好地揭示品种间遗传关系;在31对SRAP引物组合扩增的270个等位基因中多态性占62.08%,平均每对引物可以检测5.45个;25对SSR引物扩增的136个等位基因中56.28%呈多态性,平均每对检测引物产生3.04个。UPGMA聚类结果显示,在相似性系数为0.70时,192份材料可被分为3个类群;阈值为0.75时类群Ⅰ又可分为6组,表明芝麻品种遗传多样性比较丰富。我国南部地区芝麻品种遗传多样性(多样性指数Hi=2.572)较中部(Hi=2.117)和北部地区 (Hi=2.114)丰富。分析结果将有助于更好地保护和利用芝麻种质资源,并为育种工作提供依据。  相似文献   

19.
Sesame (Sesamum indicum L.) is an important edible oil crop. Meteorological factors such as temperature, rainfall, and the amount of solar radiation determine the yield potential of sesame. To identify phenotypic diversity and to infer genotypic backgrounds in a collection of 250 sesame germplasm accessions, we classified the germplasm based on variation in morphological traits using principal component (PC) and cluster analysis. The sesame germplasm was grouped based on five PCs, which accounted for 82.3% of total variation. The first PC (PC1) was positively correlated with days to flowering, days to maturity, and number of capsules per plant, whereas the second PC (PC2) was negatively correlated with all characteristics except capsule-bearing stem length. The third component (PC3) was highly positively correlated with capsule length and plant height. We constructed a scatter diagram of the first two PCs (PC1 vs. PC2), revealing four distinct groups of eigenvectors. Most sesame germplasm was widely distributed among Groups I, II, III, and IV. Group III showed a wide range of distribution in the diagram. Otherwise, the distribution of the 250 germplasm accessions was more compact in a scatter diagram of PC1 vs. PC3 compared with PC1 vs. PC2. Groups I, II, III, and IV contained 142, 102, 2, and 3 sesame germplasm accessions, respectively. The two germplasm in Group III were collected from different regions, as were the three germplasm in Group IV. The results show that the distribution of sesame origin is wider than the regions examined in view of phenotypic diversity.  相似文献   

20.
基于表型性状构建中国花生地方品种骨干种质   总被引:1,自引:0,他引:1  
中国花生地方品种遗传多样性丰富,是花生新品种选育的重要亲本来源。本研究以种质库保存的2741份地方种质为材料,基于种植区划和植物学类型分组,平方根法确定取样量,组内按13个表型数据进行UPGMA聚类分析,类内随机取样,构建骨干种质。利用t检验、F测验、卡方测验、极差、表型保留比例、表型相关性等对骨干种质代表性进行检验和评价;并利用主成分分析和直方图对骨干种质进行确认。结果表明,构建了包含259份种质的中国花生地方品种骨干种质,占全部种质的9.4%,包括多粒型14份、珍珠豆型85份、龙生型42份、普通型103份、中间型15份。在P 0.05概率条件下,骨干种质13个性状的均值、方差、变异系数、香农指数与全部种质无显著差异,且保留了全部种质的分布范围、表型保留比例和表型相关性;二者的植物学类型组成和生态分布是一致的,具有相似的遗传结构和分布频率。建立的骨干种质很好地代表了全部种质的遗传变异和群体结构,可为花生种质创新和优异等位基因发掘奠定良好的基础。  相似文献   

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