用ISSR标记检测黄麻野生种与栽培种遗传多样性

利用ISSR标记对黄麻属((Corchorus)10个种27份材料的遗传多样性进行分析,25个ISSR引物共扩增出283条带,平均每个引物扩增出10．48条带,多态性条带比例(PPB)为92．85％;种间遗传相似系数在0．33～0．97之间。表现出丰富的遗传多样性．系统聚类结果显示,第I、Ⅲ类群均为黄麻属8个种11份原始野生种,种间存在丰富的遗传多样性;第Ⅱ类群为黄麻两个栽培种及其近缘野生种,共16份材料。种遗传相似性较高;基因组聚类结果与经典分类相符．利用分子标记技术研究初步可以认为。荨麻叶种为最原始的黄麻野生种之一;三室种21C为三室种的一个变种;甜麻为一个尚待定性的野生种．同组材料的RAPD和ISSR分析结果,具有较高的相似性和可信度．     

郁金香种质资源遗传多样性的ISSR分析

本研究利用22个ISSR引物对5个新疆野生郁金香种和19个郁金香栽培品种进行ISSR分析。扩增得到195条谱带,其中多态位点为191个,多态性位点百分比为97.95%。24个郁金香材料检测等位基因数(na~*)平均为1.979 5,有效等位基因数(ne~*)在1.000 0～2.000 0之间,平均为1.432 3;Nei's基因多样性指数(h~*)在0.000 0～0.500 0之间,平均为0.262;Shannon's信息指数(I~*)在0.000 0～0.693 1之间,平均为0.407 8;研究实验反映出郁金香遗传变异水平较高,具有丰富的遗传多样性。聚类实验表明:24个郁金香材料在阈值为0.54处被聚类为A和B两大类,在阈值为0.63处除伊犁郁金香(T. iliensis)以外,其余四个郁金香野生种与常规栽培品种被单独聚类,说明野生种与栽培品种之间遗传距离较远,且大部分栽培品种之间亲缘关系较近。5个野生郁金香种中垂蕾郁金香(T. patens)、柔毛郁金香(T. buhseana)、天山郁金香(T. tianschanica)与栽培品种之间的遗传距离均在0.4以上,可以考虑作为杂交育种的材料。本研究为合理利用我国野生郁金香种质资源提供分子水平上的研究基础,并为日后郁金香杂交育种工作中亲本组合的选择提供一定的理论参考。     

舟山群岛四个养殖獐种群遗传多样性和遗传结构

基于ISSR分子标记技术,对来自舟山群岛4个獐(Hydropotes inermis)养殖种群的遗传多样性和遗传结构进行了分析.26条ISSR引物共扩增出286个可分析位点,多态位点百分比(PPL)为64.34％.獐物种水平上的Nei's遗传多样性指数(H)为0.210,Shannon's多态信息指数(Ⅰ)为0.318,各种群的H介于0.157-0.190之间,I在0.228-0.278之间,与已报道的ISSR标记在其它动物物种中的应用结果相比,其遗传多样性较为丰富.Structure软件分析结果显示,所有个体根据遗传信息的不同可以被分为4个组群,每个养殖场内的个体基本上都在各自独立的组群中,这与地理区域的划分相似.另外发现各养殖场獐种群间已表现出了较大的遗传分化(Gst=0.163).同时,为了解各种群间的遗传关系,计算了各种群间的Nei's遗传距离,结果显示舟山种群(ZS)和秀山种群(XS)之间的遗传距离最近,为0.045,而岱山种群(DS)和朱家尖种群(ZJJ)间的遗传距离最大,为0.066.基于以上结果,建议加强不同岛屿种群间的个体交流,特别是朱家尖种群(ZJJ)与其它种群间的交流.     

基于ISSR标记的辽宁4个东北林蛙种群遗传多样性分析

辽宁是东北林蛙Rana dybowskii主要分布地之一,种群数量巨大,其群体遗传多样性有待评估.本研究应用ISSR标记技术对东北林蛙4个种群105个样本进行研究,5个引物共获得44条清晰谱带,4个种群的多态位点率均大于75%,Nei's基因多样性为0.2851,Shannon信息指数为0.4476,显示了较高的遗传多样性.对遗传分化系数、Nei's遗传距离、AMOVA分子变异巢式方差分析和F-统计量等遗传参数的统计结果表明,辽宁东北林蛙种群间已经出现一定程度的遗传分化,分析认为,自然屏障(高山和平原等)以及栖息地片段化是其遗传分化形成的主要因素.     

伞裙追寄蝇不同地理种群遗传多样性的ISSＲ分析

为从分子水平探索不同地区伞裙追寄蝇种群间的内在联系,本文利用ISSR分子标记技术对8个不同地区伞裙追寄蝇自然种群进行遗传多样性、种群间分化程度以及聚类分析等研究。结果表明:筛选出11对多态性稳定的ISSR引物,对8个地区伞裙追寄蝇群体的80个个体进行PCR扩增,共获得166个重复性好且清晰可辨的ISSR条带,平均每条引物扩增出15.0909个片段,且均为多态性条带,多态信息含量(PIC)为0.8441-0.8653;香农信息指数(I)为0.1240-0.3455;Nei's遗传多样性指数(H)为0.0841-0.2285;基因分化率(Gst)为28.78%,基因流(Nm)的均值为1.5702,即遗传变异主要存在于个体之间,不同种群间基因交流处于中等水平;8个地区伞裙追寄蝇种群被划分为4个类群,种群间的遗传分化与地理距离呈正相关关系。     

蝴蝶兰种质资源遗传多样性的ISSR分析

利用ISSR分子标记对24个蝴蝶兰(Phalaenopsis)栽培品种进行了遗传多样性分析.筛选出的12个ISSR引物共扩增出301条清晰的谱带,其中多态性条带268条,多态性比率为89.1%.品种间的遗传相似系数在0.37～0.93之间,表明品种间具有较高的遗传多样性.UPGMA聚类分析可将供试材料分为3组,分类结果与材料来源及花器官表型具有密切的关系.     

基于ISSR分子标记的西藏杓兰种群遗传多样性分析

西藏杓兰(Cypripedium tibeticum)是具有很高观赏和药用价值的兰科植物,已被列为中国优先保护的濒危植物。该研究采用ISSR分子标记技术,对采自中国西部地区的7个西藏杓兰种群进行遗传结构及遗传多样性分析,为中国野生西藏杓兰种质资源的保护提供理论依据。结果显示:(1)从100条ISSR引物中共筛选出12条多态性高、重复性好的引物,共检测出136个位点,多态位点百分率(PPB)达100%,总体Nei's基因多样性指数(H_e)和Shannon信息指数(I)分别为0.318 6和0.484 3,种群间的Nei's遗传距离在0.033 3～0.170 1之间,Nei's遗传相似度在0.843 5～0.967 3之间,总体遗传分化系数(G_(st))和基因流(N_m)分别为0.222 9和1.743 0。(2)基于UPGMA法和邻接法的种群系统聚类结果均显示出四川种群与陕西种群之间存在遗传分化。总体上西藏杓兰种群间遗传分化与地理隔离之间相关性不显著。研究认为,西藏杓兰种群在分子水平上具有丰富的遗传多样性,且四川种群与陕西种群已产生了遗传分化;ISSR分子标记可用于西藏杓兰种群遗传多样性、遗传结构及种群间遗传分化等方面的研究。     

猕猴桃属16个雄性材料遗传多样性的ISSR分析

利用ISSR分子标记对雄性猕猴桃16个材料进行遗传多样性分析。从100条引物中筛选出10条引物用于ISSR扩增,共扩增出172条带,其中多态性条带140条,多态性百分率为81.4%;经POPGENE 1.32软件分析结果显示,16个雄性猕猴桃材料的遗传距离在0.1503~0.5128之间,平均Nei's基因多样性指数(H)为0.2416,平均Shannon信息指数(I)为0.4048;聚类分析结果显示,在遗传相似系数为0.64处可将供试材料分成4类,第Ⅰ类为中华和美味猕猴桃,第Ⅱ类为阔叶、毛花猕猴桃,第Ⅲ类为魁绿猕猴桃,第Ⅳ类为四萼猕猴桃。结果表明ISSR可用于雄性猕猴桃遗传多样性研究,该研究结果可为猕猴桃种质资源的进一步开发利用提供重要信息。     

ISSR分子标记技术在分析玉米自交系遗传关系研究中的适用性

利用ISSR分子标记技术对59份玉米自交系和1份大刍草材料进行遗传多样性分析.21对ISSR引物共扩增出475条不同位置的带,平均22.6条;多态性带469条,平均22.3条,百分率高达98.7%;不同引物的多态性信息指数(PIC)在0.84～0.94之间.60份材料的遗传相似系数在0.23～0.48之间.经聚类分析,可将这些材料分成两大组,共9个亚组,并且在一定程度上与血缘和系谱是一致的,也存在一些例外.结果表明,ISSR标记尽管可以用于进行遗传多样性分析,但并不是最好的分子标记类型.综合考虑不同的分子标记类型的优缺点,认为ISSR标记在遗传研究较少的作物上应用潜力较大.     

辣椒种质遗传多样性的RAPD和ISSR及其表型数据分析

用RAPDI、SSR分子标记及28个表型性状数据对辣椒属5个栽培种的13份材料进行了分析,结果表明:23条RAPD引物共扩增出209条带,平均每个引物扩增出9.09条,多态性位点比率为83.73%;16条ISSR引物共扩增出94条带,平均每个引物扩增出5.88条,多态性位点比率为79.79%.与RAPD相比,ISSR标记检测到的有效等位基因数(Ne)及Shannon多样性指数(I)、遗传离散度(Ht)和遗传分化系数(Gst)等遗传多样性参数都较大,多态性位点比例在亲缘关系较近的一年生辣椒(Capsicum annuum)种内较高,说明ISSR有更高的多态性检测效率,并且适合亲缘关系较近的种群间遗传多样性分析.基于RAPDI、SSR的聚类与基于表型数据的聚类之间存在极显著正相关,且都能将C.annuum与其它栽培种区分开来.     

Genetic diversity and phylogenetic relationships of the genus Lycopersicon (Tourn.) Mill. as revealed by inter-simple sequence repeat (ISSR) analysis

Inter-simple sequence repeat (ISSR) analysis was for the first time used to study the genetic diversity and phylogenetic relationships in 54 wild accessions and cultivars of the genus Lycopersicon. Analysis involved 14 ISSR primers homologous to microsatellite repeats and containing additional selective anchor nucleotides. In total, 318 ISSR fragments were amplified for the wild and cultivated tomato genomes. The interspecific polymorphism revealed with the ISSR primers was 95.6%. Species-specific ISSR fragments were detected for each tomato species. The highest number (more than 20) of species-specific fragments were obtained for L. esculentum sensu lato, although the intraspecific variation of ISSR patterns was low. UPGMA cluster analysis was used to construct a dendrogram and to estimate the genetic distances between the species of the genus Lycopersicon; between populations of L. peruvianum, L. pimpinellifolium, and L. esculentum; and between tomato cultivars. The ISSR-based phylogeny was generally consistent with Lycopersicon taxonomy based on morphological and molecular evidence, suggesting the applicability of ISSR analysis for genotyping and phylogenetic studies in tomato.     

Genetic variation and cultivar identification in Cymbidium ensifolium

As a popular flowering species with many cultivars, Cymbidium ensifolium (L.) is commercially important in horticulture. However, so far little has been known about genetic diversity and conservation genetics of this species. Understanding of the genetic variation and relationships in cultivars of C.?ensifolium is a prerequisite for development of future germplasm conservation and cultivar improvement. Here we report assessment of genetic variations in C.?ensifolium cultivars using the DNA fingerprinting technique of inter-simple sequence repeats (ISSR). A total of 239 ISSR loci were identified and used for evaluation of genetic variation with a selection of 19 ISSR primers. Among these ISSR loci, 99.16% were polymorphic with wide genetic variation as shown by Nei??s gene diversity (H?=?0.2431) among 85 tested cultivars. ISSR fingerprinting profiles showed that each cultivar had its characteristic DNA pattern, indicating unequivocal cultivar identification at molecular level. Eighteen cultivar-specific ISSR markers were identified in seven cultivars. The cultivar Sijiwenhan was confirmed as hybrid by four ISSR primers. Several cultivars with same name but different geographical origins were distinguished based on their ISSR profiles. A dendrogram generated with ISSR markers could group 73 of 85 cultivars into four major clusters. Further analysis of ISSR variation revealed that about 69% of total genetic variation in this species is due to genetic divergence inside geographical groups. Our results suggest that both germplasm collection and in?situ conservation are important for future planning of C.?ensifolium species conservation.     

Genetic relationship among wild,landraces and cultivars of hazelnut (Corylus avellana) from Portugal revealed through ISSR and AFLP markers

The genus Corylus, a member of the birch family Betulaceae, includes several species that are widely distributed throughout temperate regions of the Northern Hemisphere. This study assesses the genetic diversity in 26 international cultivars and 32 accessions of Corylus avellana L. from Portugal: 13 wild genotypes and 19 landraces. The genetic relationships among the 58 hazelnuts (Corylus avellana L.) were analyzed using inter simple sequence repeat (ISSR) and amplified fragment length polymorphism (AFLP) markers. Eighteen ISSR primers and seven AFLP primer pairs generated a total of 570 unambiguous and repeatable bands, respectively, from which 541 (95.03 %) were polymorphic for both markers. Genetic similarity index values ranged from 0.239 for wild types and cultivars to 0.143 for landraces and wild types. The genetic relationships were presented as a Neighbor-Joining method dendrogram and a two-dimensional principal coordinate analysis (PCoA) plot. The Neighbor-Joining dendrogram showed three main clusters, and the PCoA analysis has shown to be congruent with the hierarchical analysis. Bayesian analysis clustered all individuals into three groups showing a good separation among wild genotypes, landraces and cultivars. The genetic diversity found on wild genotypes and Portuguese landraces may provide relevant information for the diversity conservation and it will be useful in breeding programs and to identify local selections for preservation.     

Genetic Diversity and Phylogenetic Relationships in the Genus Lycopersicon (Tourn.) Mill. as Revealed by Inter-Simple Sequence Repeat (ISSR) Analysis

Inter-simple sequence repeat (ISSR) analysis was for the first time used to study the genetic diversity and phylogenetic relationships in 54 wild accessions and cultivars of the genus Lycopersicon. Analysis involved 14 ISSR primers homologous to microsatellite repeats and containing additional selective anchor nucleotides. In total, 318 ISSR fragments were amplified for the wild and cultivated tomato genomes. The interspecific polymorphism revealed with the ISSR primers was 95.6%. Species-specific ISSR fragments were detected for each tomato species. The highest number (more than 20) of species-specific fragments were obtained for L. esculentum sensu lato, although the intraspecific variation of ISSR patterns was low. UPGMA cluster analysis was used to construct a dendrogram and to estimate the genetic distances between the species of the genus Lycopersicon; between populations ofL. peruvianum, L. pimpinellifolium, and L. esculentum; and between tomato cultivars. The ISSR-based phylogeny was generally consistent with Lycopersicon taxonomy based on morphological and molecular evidence, suggesting the applicability of ISSR analysis for genotyping and phylogenetic studies in tomato.     

Genetic Diversity and Variation Among Botanical Varieties of Old Portuguese Wheat Cultivars Revealed by ISSR Assays

Inter-simple sequence repeats (ISSRs) were used for genetic diversity analyses of an Old Portuguese wheat collection. Eighteen primers produced 96.3 and 98.5% of ISSR polymorphism in bread and durum wheat cultivars, respectively. The unweighted pair group method with arithmetical averages (UPGMA) phenogram clearly split all cultivars based on their species/ploidy, reflecting a defined genetic structure. ISSRs revealed high genetic diversity at interspecific, intraspecific, and intercultivar levels. Thirty-three exclusive ISSR markers were found. Cultivars were clustered according to their botanical varieties and, in a few cases, with their homonym(s). No statistically significant differences were found between genetic diversity parameters of durum and bread wheat, probably due to high intraspecific diversity. Similar analyses were performed among botanical varieties, and their relationships were defined. Cladograms resembled UPGMA clustering. This highly genetically diverse Old wheat collection will be conserved and maintained, and it could be further used in breeding programs to widen the narrow genetic basis of modern wheat varieties and to avoid the loss of rare and unique alleles.     

Genetic diversity in european and Argentinian cultivated potatoes (Solanum tuberosum subsp. tuberosum) detected by inter-simple sequence repeats (ISSRs).

In this study, the use of inter-simple sequence repeats (ISSR) to assess genetic diversity between cultivated potatoes (Solanum tuberosum subsp. tuberosum) is reported. ISSR technology rapidly reveals high polymorphic fingerprints and thus determines the genetic diversity among potato cultivars. Nine primers were selected according to the number of amplified markers and the level of polymorphism detected. Three primers (GAG(CAA)5, CTG(AG)8, and (AG)8) were used to cluster the 28 potato accessions and 77 polymorphic markers were sufficient to identify all of the accessions. Among the 15 simple sequence repeat (SSR) motifs tested, the most abundant were CAA and AG. Argentinian- and European-grown potatoes were easily distinguished, with a higher level of genetic diversity among potatoes from Argentina. An ISSR study using a limited number of cultivars and very few primers clearly differentiated between all cultivars, thus ISSR was revealed to be a good tool for the genetic identification of potato and for future germplasm-management programs.     

中国桑树选育品种ISSR指纹图谱的构建及遗传多样性分析

利用ISSR标记构建了24个选育桑品种的指纹图谱,用3种独立的方法（特殊的标记;特异的谱带类型;不同引物提供的谱带类型组合）可以有效地鉴别桑树选育品种,证明ISSR标记在桑树品种的鉴别方面是一个有效的工具和方法。17个ISSR引物共扩增出80条带,40条带具有多态性,占50．0％。24份选育桑树品种间平均遗传相似系数、Nei’S基因多样性（gene diversity）和Shannon’S信息指数分别为0．8731,0．1210和0．1942。桑树选育品种间的遗传多样性较低,说明中国选育桑品种间遗传距离较小,亲缘关系较近,。遗传基础较狭窄。UPGMA法聚类和PCA分析都清楚地显示了24个桑树选育品种的亲缘关系,聚类结果与桑树品种的系谱基本一致。     

RAPD and ISSR fingerprints as useful genetic markers for analysis of genetic diversity, varietal identification, and phylogenetic relationships in peanut (Arachis hypogaea) cultivars and wild species.

Abstract: Twenty-one random and 29 SSR primers were used to assess genetic variation and interrelationships among subspecies and botanical varieties of cultivated peanut, Arachis hypogaea (2n = 4x = 40), and phylogenetic relationships among cultivated peanut and wild species of the genus Arachis. In contrast with the previous generalization that peanut accessions lack genetic variation, both random and SSR primers revealed 42.7 and 54.4% polymorphism, respectively, among 220 and 124 genetic loci amplified from 13 accessions. Moreover, the dendrograms based on RAPD, ISSR, and RAPD + ISSR data precisely organized the five botanical varieties of the two subspecies into five clusters. One SSR primer was identified that could distinguish all the accessions analysed within a variety. Although the polymorphic index content varied from 0.1 to 0.5 for both ISSR and RAPD markers, primer index values were substantially higher for RAPD primers (0.35-4.65) than for SSR primers (0.35-1.73). It was possible to identify accessions, particularly those of divergent origins, by RAPD and (or) ISSR fingerprints. Based on these results, marker-based genetic improvement in A. hypogaea appears possible. None of the 486 RAPD and 330 ISSR amplification products were found to be commonly shared among 13 species of section Arachis and one species each of sections Heteranthae, Rhizomatosae, and Procumbentes. Dendrograms constructed from RAPD, ISSR, and RAPD + ISSR data showed overall similar topologies. They could be resolved into four groups corresponding to the species grouped in four taxonomic sections. The present results strongly support the view that Arachis monticola (2n = 4x = 40) and A. hypogaea are very closely related, and indicate that A. villosa and A. ipaensis are the diploid wild progenitors of these tetraploid species.     

Construction of Fingerprinting and Genetic Diversity of Mulberry Cultivars in China by ISSR Markers

The ISSR fingerprintings of 24 mulberry cultivars were constructed. Totally 80 bands were produced using 17 primers selected from 20 primers. Of them, 40 bands showed polymorphism. From the bands amplified, there were three independent ways to identify the mulberry varieties, such as unique ISSR markers, unique band patterns and a combination of the band patterns provided by different primers. ISSRs were very effective in differentiating the mulberry varieties. The mean genetic similarity coefficient, the mean Nei's gene diversity (h), and the mean Shannon's Information index (I) of mulberry cultivars were 0.8731, 0.1210, and 0.1942, respectively. This suggests that the genetic diversity of mulberry cultivars was low and the genetic base was narrow. Both UPGMA cluster and PCA (Principal Coordinates Analysis) analysis showed clear genetic relationships among the 24 mulberry cultivars. The major clusters were related to known pedigree relationships.     

Molecular variation and fingerprinting of Leucadendron cultivars (Proteaceae) by ISSR markers

BACKGROUND AND AIMS: There are more than 80 species of Leucadendron and most are used as cut flowers. Currently, more than 100 cultivars are used by industry and many of them are interspecific hybrids. The origin of most cultivars is unclear and their genetic diversity and relationships have not been studied. This investigation was carried out to evaluate the genetic variation and relationships among 30 Leucadendron cultivars. METHODS: ISSR markers were applied to determine the genetic variation and to discriminate Leucadendron cultivars. Sixty-four ISSR primers were screened and 25 primers were selected for their ability to produce clear and reproducible patterns of multiple bands. KEY RESULTS: A total of 584 bands of 305-2400 bp were amplified, of which 97 % were polymorphic. A dendrogram generated using the Unweighted Pair Group Method with Arithmetic Average based on a distance measure of total character difference showed that the Leucadendron cultivars clustered into two main groups. Twenty-four of the 30 cultivars can be unequivocally differentiated, but identical profiles were observed for three cultivar pairs, 'Katie's Blush' and 'Silvan Red', 'Highlights' and 'Maui Sunset', and 'Yellow Crest' and 'Yellow Devil'. CONCLUSIONS: ISSR profiling is a powerful method for the identification and molecular classification of Leucadendron cultivars. A fingerprinting key was generated based on the banding patterns produced using two ISSR primers (UBC856 and UBC857). In addition cultivar-specific ISSR bands were obtained for 17 of the 30 Leucadendron cultivars tested.