黄淮麦区以1B/1R类品种为抗源主要育成小麦品种的遗传多样性分析

采用SSR技术对黄淮麦区以1B／1R类品种为抗源育成的38个小麦品种进行聚类分析。39个SSR引物共扩增出186条谱带,其中143务为多态性条带,占76．9％。每个引物可扩增出1～9条多态性条带,平均3．7条。位点多态性信息含量PIC变幅为0．320-0．857,平均为0．634。聚类分析表明,在遗传距离GD值0．32水平上38个小麦品种可聚成六大类。品种间遗传距离GD变幅为0．10769～0．48571。SSR标记揭示出这38个具有黑麦血缘的小麦品种遗传变异较小,遗传基础比较狭窄。     

高丹草EST-SSR标记的开发及其遗传多样性

对NCBI数据库中210 878条高粱EST序列进行处理, 得到57 498条无冗余EST序列, 经SSR搜索, 发现3 338个SSR分布于3 116条EST序列中, 分布频率为1/11.28 kb, 包括215种基元重复类型。其中三核苷酸重复最高, 占68.33%, 二核苷酸重复占17.97%。3 338条SSR序列中有1 694条序列能够设计出引物, 所占比例为50.75%。选取14对引物进行合成, 对50份高丹草、7份高粱和3份苏丹草材料进行了EST-SSR扩增, 共检测到72个等位变异, 平均每对引物检测出5.14个基因位点。每对引物多态性指数范围为0.54~0.93, 遗传距离的变化范围0.1646~0.6398。结果显示：供试材料具有较丰富的遗传多样性, 根据EST-SSR数据的聚类分析, 将供试材料按亲缘关系远近分为5大类, 来源相同的品种大致聚在一类, 呈现出一定的地域性分布规律。同时发现4个特异分子标记, 其中引物D1763只对314A和白壳苏丹草杂交后代GB-4-2高丹草审定品种产生特异性, 此标记已作为该材料的特异性标记用于种质资源的鉴定中, 同时表明, EST-SSR标记是高丹草遗传多样性及特异性研究的一种有效方法。     

河北省大豆推广品种遗传多样性分析

利用主要农艺性状以及SSR和AFLP2种分子标记,对河北省41个大豆推广品种进行遗传多样性分析,以便为种质资源利用和创新提供依据。农艺性状聚类结果将41个材料划分为3个类群和2个特殊品种,聚类结果与材料系谱来源相差悬殊,不能反映材料间亲缘关系。SSR和AFLP数据聚类结果将41个材料划分为4个SAG（SSR and AFLP—basedgroups）分子类群。30对SSR引物共检测出135个等位变异,平均每个位点上有4．47个等位变异,SSR的遗传多样性指数（Simpson）分布范围为0．0928～0．7800,平均值为0、6442。10对AFLP引物共扩增出93个多态性标记,平均每对引物9．3个多态性标记。品种间的遗传相似系数（GS）变化范围为0．5877～0．9868,平均值变化范围为0．6732～0．7653,总体平均值为0.7237,遗传相似系数较高,说明材料间遗传变异较小。     

利用SSR分子标记进行海岛棉遗传多样性研究

利用SSR分子标记,对20世纪50年代我国引入海岛棉以来培育的45个国内品种(系)及8个国外品种的遗传多样性进行研究.通过256对SSR引物的筛选,选择24对扩增效果好的引物对53个海岛棉种质资源进行遗传多样性的检测分析,共检测出106个等位位点,每对引物等位位点数在2～8之间,平均为4.4.其中多态性等位基因变异97个,占91.5%.位点多态性信息含量平均为0.688,最高为0.848,最低为0.245.利用NTSYSpc2.1软件,分别计算农艺经济性状的欧氏距离(Euclid)和分子标记数据的Jaccard系数矩阵,采用UPGMA法对所选材料进行聚类分析.结果表明,两个树状聚类图基本吻合,53个品种被分为两大类,与系谱来源一致.实验证明SSR分子标记在鉴别品种和品种遗传多样性研究方面具有重要作用.     

部分耐盐小麦品种(系)SSR位点遗传多样性研究

选择有多态性的32对SSR引物对80个小麦耐盐品种(系)进行遗传差异研究,共检测出155个等位变异,平均每个位点上有4.75个等位变异;供试80份耐盐小麦品种(系)来源广泛,遗传基础丰富,表现出较高的遗传多样性,遗传相似系数范围在0.26～0.81;聚类分析结果显示,冬性小麦品种(系)聚为一大类;春性小麦品种(系)也聚为一大类;一些系谱相同或相近的品种(系)遗传相似系数较大;A、B、D基因组中SSR位点平均等位变异差异不大,以B基因组较高.     

EST-SSR标记在蔬菜遗传育种中的应用

EST-SSR标记技术是一种有效的功能分子标记方法,它是从EST序列中开发的SSR标记.该文简单综述了EST-SSR标记技术开发的基本原理、相对于其他分子标记技术的优点以及该分子标记在蔬菜作物遗传育种如遗传图谱构建、种质资源和遗传多样性分析、引物通用性、比较作图和品种鉴定、亲缘关系和物种起源进化方面的应用现状.最后指出了现阶段EST-SSR标记开发过程和应用中存在的几个问题以及应采取的相应措施,并对发展前景进行了展望.     

小桐子EST-SSR分子标记的开发与种质遗传多样性分析

小桐子（Jatrophacurcm）适应性强,不择土壤,种子油脂性能适宜生物柴油的生产,是重要的生物柴油植物。基于小桐子种子发育过程中的EST序列,采用生物信息学方法,从4640个EST非冗余序列上鉴别了1009个SSR位点并分析其分布特征;开发了11对多态的EST—SSR分子标记,并利用这些分子标记调查了24个不同地理种源的遗传多样性,从每个位点的等位基因数目（2—3,平均为2．45）、期望杂合度（He为0．0887—0．5128,平均是0．2736）、多态信息含量（PIC为0．0847～0．4031,平均是0．2313）等方面反映了小桐子种质的遗传多样性低。进一步分析显示不同地理种源的遗传关系缺乏明显的地理结构。作者开发的EST—SSR分子标记不仅有助于小桐子种质的遗传多样性研究,也有助于小桐子种质间的遗传关系鉴别。     

基于G-SSR和EST-SSR标记的鲫6个群体遗传结构分析

研究同时利用非编码区和编码区微卫星标记(G-SSR和EST-SSR)分析黑龙江、长江、奉化江及淮河水系共6个野生鲫(Carassius auratus)群体的遗传多样性及遗传结构, 并比较2类不同来源SSR用于鲫群体遗传多样性分析的差异。8个G-SSR标记在6个鲫群体中检测到173个等位基因, 平均N_a、N_e、H_o、H_e以及PIC分别为22、12.9、0.769、0.893和0.879, 群体间F_st值介于0.008—0.085, 其中来自黑龙江水系的2个群体与其余水系的所有群体均达到或接近于中等程度的遗传分化, 而长江、奉化江和淮河水系4个群体间的遗传分化程度不明显。Nei’s遗传距离介于0.203—0.701; 根据遗传距离所绘制的UPGMA聚类图将6个鲫群体划分为2个大分支, 其中来自黑龙江水系的2个群体聚为一枝, 其余水系群体聚为另一枝。贝叶斯分析也支持这一结果, 将6个鲫群体划分为2个最佳理论群。利用8个EST-SSR标记在6个鲫群体中共检测到155个等位基因, 平均N_a、N_e、H_o、H_e以及PIC分别为19、9.5、0.728、0.870和0.855; 群体间F_st值和Nei’s遗传距离分别介于0.005—0.084和0.117—0.683; 基于EST-SSR标记的UPGMA聚类分析和贝叶斯分析也将6个鲫群体划为两大类群: 黑龙江水系群体; 长江、奉化江和淮河水系群体。G-SSR和EST-SSR标记检测6个鲫群体的平均多态信息含量(PIC)分别为0.786—0.864和0.761—0.833。研究结果显示: 6个野生鲫群体均具有较高的遗传多样性, 但黑龙江水系群体多样性低于其他水系群体; 尽管EST-SSR标记的多态性略小于G-SSR标记, 但是2类微卫星标记均揭示了相似的鲫群体遗传结构和分化格局。研究结果对鲫种质资源的保护和EST-SSR标记在鱼类群体遗传学研究价值的评价提供了新的信息。     

EST-SSR及其在植物基因组学研究中的应用

数量迅速增加的表达序列标签已经成为开发分子标记的重要资源。EST—SSR是基于表达序列标签开发微卫星的一种新型分子标记,与基因组SSR相比,EST-SSR具有在植物物种之间可转移性的优点。目前,EST—SSR被广泛应用于植物基因组学研究如遗传图谱构建、比较作图、遗传多样性评价、种质鉴定、系统发育与进化研究等方面。该文介绍了EST—SSR原理、引物开发、实验方法,并对其物种间通用性以及其在植物基因组研究中的应用进行了评述。     

利用分子标记和形态学性状检测的陆地棉栽培品种遗传多样性

利用RAPD,ISSR和SSR3种分子标记方法和2年田间实验对国内外36个陆地棉栽培品种的遗传多样性进行了研究,以3种分子标记在36个品种之间扩增的282条多态性位点所赋值的0,1数据,采用Nei和Li的方法,计算的品种成对相似系数从0．5745到0．9291,其品种平均数从0．6547到0．7524,又以2年品种表现的性状平均数经正态标准化后,采用欧氏距离计算了成对品种的遗传距离。分别以相似系数和传距离矩阵,采用类平均法进行聚类分析,其聚类结果把供试品种大致分为国外品种,新疆品种,早熟类型品种和我国的中熟棉品种等几个类群,类内进一步分组表明,分子标记确定的传关系基本上与品种系谱的种质系统一致,但并不能按系谱或种植生态区域简单地归属,尽管分子标记数据计算的相似系数矩阵和表现型计算的遗传距离矩阵存在极显著的相关关系（r=-0.335),但以遗传距离进行聚类分析的类内分组的组间特征不明显,分子标记是检测类内品种间遗传差异的有效方法,研究结果为棉花育种亲本选配提供了理论依据。     

Isolation of EST-derived microsatellite markers for genotyping the A and B genomes of wheat

Genetic variation present in 64 durum wheat accessions was investigated by using three sources of microsatellite (SSR) markers: EST-derived SSRs (EST-SSRs) and two sources of SSRs isolated from total genomic DNA. Out of 245 SSR primer pairs screened, 22 EST-SSRs and 20 genomic-derived SSRs were polymorphic and used for genotyping. The EST-SSR primers produced high quality markers, but had the lowest level of polymorphism (25%) compared to the other two sources of genomic SSR markers (53%). The 42 SSR markers detected 189 polymorphic alleles with an average number of 4.5 alleles per locus. The coefficient of similarity ranged from 0.28 to 0.70 and the estimates of similarity varied when different sources of SSR markers were used to genotype the accessions. This study showed that EST-derived SSR markers developed in bread wheat are polymorphic in durum wheat when assaying loci of the A and B genomes. A minumum of ten EST-SSRs generated a very low probability of identity (0.36×10⁻¹²) indicating that these SSRs have a very high discriminatory power. EST-SSR markers directly sample variation in transcribed regions of the genome, which may enhance their value in marker-assisted selection, comparative genetic analysis and for exploiting wheat genetic resources by providing a more-direct estimate of functional diversity. Received: 19 December 2000 / Accepted: 17 April 2001     

Microsatellite-based molecular diversity of bread wheat germplasm and association mapping of wheat resistance to the Russian wheat aphid

Genetic diversity of a set of 71 wheat accessions, including 53 biotype 2 Russian wheat aphid (RWA2)-resistant landraces and 18 RWA2 susceptible accessions, was assessed by examining molecular variation at multiple microsatellite (SSR) loci. Fifty-one wheat SSR primer pairs were used, 81 SSR loci were determined, and 545 SSR alleles were detected. These SSR loci covered all the three genomes, 21 chromosomes, and at least 41 of the 42 chromosome arms. Diversity values averaged over SSR loci were high with mean number of SSR alleles/locus = 6.7, mean Shannon’s index (H) = 1.291, and mean Nei’s gene diversity (He) = 0.609. The three wheat genomes ranked as A > D > B and the homoeologous groups ranked as 7 > 3  > 1 > 2 > 6 > 5 > 4 based on the number of alleles per locus. Xgwm136 on chromosome arm 1AS is the most polymorphic SSR locus with the largest number of observed and effective alleles and the highest H and He. Among all 2485 pairs of wheat accessions, genetic distance (GD) ranged from 0.054 to 1.933 and averaged 0.9832. A dendrogram based on GD matrix showed that all the wheat accessions could be grouped into distinct clusters. Most of the susceptible cultivars (13/18) were clustered into groups that contains all or mostly susceptible accessions. Most of the U.S. cultivars belong to a group that is distinguishable from all the different RWA2 resistant groups. Diversity analysis was also conducted separately for subgroups containing 53 RWA2-resistant accessions and 18 RWA2-susceptible accessions. Association mapping revealed 28 SSR loci significantly associated with leaf chlorosis, and 8 with leaf rolling. New chromosome regions associated with RWA2 resistance were detected, and indicated existence of new RWA resistance genes located on chromosomes of all other homoeologous groups in addition to the groups 1 and 7 in bread wheat. This information is helpful for development of mapping populations for RWA2 resistance genes from different phylogenetic groups, and for wise utilization of the RWA-resistant germplasm in wheat breeding programs.     

用EST-SSR标记检测我国甘蓝型油菜品种的遗传多样性

杂交育种依然是我国油菜育种的主要方法,杂种优势的利用仍然是提高产量的重要途径.为了解我国甘蓝型油菜的遗传变异,采用16个EST-SSR标记对近年来推广的91个品种的遗传多样性进行了分析.共扩增到100个条带,其中84个多态性带,多态性比率为84%.平均每对引物扩增的带数和多态性带数分别为6.25个和5.25个.多态性信息含量(PIC)变化在0.022-0.926之间,平均为0.677,所揭示的基因型数变化于2-24之间,平均为12.44个.供试材料间遗传距离变幅较大(0.0530-0.7223之间),说明它们具有广泛的遗传变异.其中,杂交种和2000年以后育成品种的遗传基础较宽,遗传多样性分别明显高于常规品种和2000年以前育成的品种.按非加权成对平均数法(UPGMA)进行的聚类分析显示,在遗传距离为0.313处,参试材料可以分为三大类,其中,包含87份材料的第一大类在遗传距离为0.233处又可进一步分为10个亚类.聚类结果与系谱来源基本一致,比较真实反映了所用材料的遗传变异情况.     

Genetic diversity of some wild almonds and related <Emphasis Type="Italic">Prunus</Emphasis> species revealed by SSR and EST-SSR molecular markers

Almond and its related wild species, which are widely distributed in Central and West Asia, have high genetic variation. This is an important source of genetic diversity for crop improvement. In this study a set of 32 SSR and 12 EST-SSR primer pairs were used to determine genetic diversity in 89 accessions of almond and other Prunus species. Most of the accessions (68) were collected from natural habitats of Iran. SSR primers amplified higher numbers of alleles than EST-SSR markers and discriminated genotypes more effectively. Results indicated high diversity among accessions. Observed heterozygosity (Ho) was 0.581. Nei’s index of diversity (He) and average number of alleles per locus (na) were 0.885 and 34, respectively. The mean value of polymorphism information content (PIC) was 0.874. The average Fst (F-statistics index) was 0.271 and the fixation index (Fis) was 0.151. Estimated variance among putative populations (AP) and individuals (AI) and within individuals (WI) were 5, 35, and 60%, respectively, which revealed that most of the variation was distributed among individuals rather than groups. Cultivated almonds were highly similar to P. fenzeliana, which is native to West Asia, supporting the importance of these regions in almond domestication. In the dendrogram of groups, minimum genetic distance was observed between Amygdalus and Orientalis groups from the Euamygdalus section. The Leptopus and Chameamygdalus sections were more distant from almonds than plums. The results also showed Dodecandra (Lycioides) series should be taxonomically classified closer to the section Euamygdalus.     

Characterization and multiplexing of EST-SSR primers in Cynodon (Poaceae) species1

? Premise of the study: Cynodon species are multiple-use grasses that display varying levels of adaptation to biotic and abiotic stress. Previously identified EST-SSR primers were characterized and multiplexed to assess the level of genetic diversity present within a collection of almost 1200 Cynodon accessions from across Australia. ? Methods and Results: Two multiplex reactions were developed comprising a total of 16 EST-SSR markers. All SSR markers amplified across different Cynodon species and different levels of ploidy. The number of alleles ranged from one to eight per locus and the total number of alleles for the germplasm collection was 79. ? Conclusions: The 16 markers show sufficient variation for the characterization of Cynodon core collections and analysis of population genetic diversity in Cynodon grasses.     

从CIMMYT引进的人工合成六倍体小麦D染色体组微卫星分子标记的遗传差异

采用微卫星（SSR）分子标记技术,选用23个D染色体组特异性引的对来自CIMMYT的26份人工合成六倍体小麦D染色体组的遗传多样性进行了分析。研究发现,26份材料在D染色体组上存在丰富的等位基因变异（92个）,平均每个基因座为4个。遗传距离计算结果也显示,26份材料D染色体组之间具有较大的遗传差异,平均遗传距离高达0．4955。因此,人工合成六倍体小麦D染色体组中存在丰富的遗传多样性,可以作为拓宽普通小麦遗传基础的新的遗传变异来源。研究还发现,由同一个粗山羊草基因型与不同硬粒小麦杂交合成的人工合成六倍体小麦（如合成种17和18）在所用检测的23个基因座中有3个存在差异,说明小麦在多倍化后,供体基因组在重复序列区域会发生遗传分化。     

Genetic analysis of maize germplasm in the Korean Genebank and association with agronomic traits and simple sequence repeat markers

We assessed genetic and phenotypic variation in 105 maize germplasm accessions from RDA-Genebank of Korea and performed association analyses for 11 agronomical traits and 100 simple sequence repeats (SSR). Genetic diversity (GD) analysis revealed a total of 1104 alleles at the 100 SSR loci. The average number of alleles per locus was 11.0. The average GD and polymorphic information content values were 0.73 and 0.70, respectively. The average major allele frequency was 0.41. Population structure analysis indicated that these maize accessions comprised two major groups and one admixed group based on a membership probability threshold of 0.80. The two major groups contained 35 and 46 maize accessions. A mixed linear model of association analysis revealed five marker-trait associations with a significance level of P?≤?0.01 involving five SSR markers. A general linear model showed 72 marker-trait associations involving 42 SSR markers. We confirmed the presence in the general linear model associations of the five significant marker-trait associations (SMTAs) identified in the mixed linear model. For these SMTAs, two loci were associated with stem diameter and one locus each was associated with ear row number, leaf width, and leaf length. These results should prove useful for breeding new inbred lines by selecting parental lines using molecular markers and will help to preserve maize genetic resources in Korea.     

Development and characterization of microsatellite markers from tropical forage Stylosanthes species and analysis of genetic variability and cross-species transferability

A limited number of functional molecular markers has slowed the desired genetic improvement of Stylosanthes species. Hence, in an attempt to develop simple sequence repeat (SSR) markers, genomic libraries from Stylosanthes seabrana B.L. Maass & 't Mannetje (2n=2x=20) using 5' anchored degenerate microsatellite primers were constructed. Of the 76 new microsatellites, 21 functional primer pairs were designed. Because of the small number of primer pairs designed, 428 expressed sequence tag (EST) sequences from seven Stylosanthes species were also examined for SSR detection. Approximately 10% of sequences delivered functional primer pairs, and after redundancy elimination, 57 microsatellite repeats were selected. Tetranucleotides followed by trinucleotides were the major repeated sequences in Stylosanthes ESTs. In total, a robust set of 21 genomic-SSR (gSSR) and 20 EST-SSR (eSSR) markers were developed. These markers were analyzed for intraspecific diversity within 20 S. seabrana accessions and for their cross-species transferability. Mean expected (He) and observed (Ho) heterozygosity values with gSSR markers were 0.64 and 0.372, respectively, whereas with eSSR markers these were 0.297 and 0.214, respectively. Dendrograms having moderate bootstrap value (23%-94%) were able to distinguish all accessions of S. seabrana with gSSR markers, whereas eSSR markers showed 100% similarities between few accessions. The set of 21 gSSRs, from S. seabrana, and 20 eSSRs, from selected Stylosanthes species, with their high cross-species transferability (45% with gSSRs, 86% with eSSRs) will facilitate genetic improvement of Stylosanthes species globally.     

利用SSR标记分析云南、西藏和新疆小麦的遗传多样性

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。