基于SSR标记的132份甘薯种质指纹图谱的构建及遗传多样性分析

利用SSR分子标记技术,构建132份甘薯种质的DNA指纹图谱,并进行遗传多样性分析,旨在为甘薯种质资源亲缘关系鉴定、分类提供理论依据。利用筛选的核心引物进行PCR扩增,通过聚丙烯酰胺凝胶电泳检测显示,19对引物共扩增出232个条带,其中多态性条带165条,多态性比率为71.1%,平均每对引物扩增出8.68个条带,多态性信息含量变化范围在0.6706~0.9331之间,平均为0.8158;其中引物SSR9和引物C33可将132份种质完全区分开,并构建供试材料的DNA指纹图谱,供试材料遗传距离在0.0363~0.5939之间,平均为0.4087,表明种质资源间遗传多样性丰富。基于SSR标记对供试材料进行聚类分析,将供试材料分为2个类群,第Ⅰ类群分为两个亚类,第Ⅰ-1亚类包括济薯25和3份日本引进品种日本金千贯、安納芋、日本薯;第Ⅰ-2亚类包括济徐薯23、苏丹、济薯09281。第Ⅱ类群分为两个亚类,第Ⅱ-1亚类由S07甘薯品系和与其亲缘关系较近的20份甘薯种质组成;第Ⅱ-2亚类由剩余的70份甘薯种质组成,为甘薯分子辅助育种中亲本的选择提供理论依据。     

乌塌菜种质资源遗传多样性的ISSR分析

利用ISSR技术对48份乌塌菜种质资源进行遗传多样性分析。从60条随机引物中筛选出稳定性强、条带清晰且多态性丰富的9条引物进行PCR扩增,共扩增出103条谱带,平均每个引物扩增出11.4条带,其中多态性带85条,多态性位点百分率为82.68%。不同乌塌菜种质间遗传相似系数变幅为0.59~0.97,说明ISSR标记能够揭示材料间较高的遗传多样性。利用UPGMA聚类分析,ISSR标记能将48份乌塌菜品种完全区分开,48份乌塌菜种质被划分为4个类群,聚类结果与叶片颜色相关,为乌塌菜品种资源的研究利用提供参考。     

RAPD标记在山葡萄种质鉴定中的应用

采用修改后的CTAB 法获得了高质量的基因组DNA 。利用RAPD 标记技术对山葡萄7 份种质进行鉴定, 用4 个引物(从30 个引物中筛选)对试材进行PCR 扩增, 共扩增出30 条谱带, 平均每条引物产生7.5 条谱带, 其中21 条谱带为多态性谱带, 占总谱带数的70%。不同引物扩增的谱带数不同, 范围在6~9 条之间。利用4 个引物扩增出的多态性谱带可以将7 份山葡萄种质区分。     

甘薯种质资源遗传稳定性及遗传多样性SSR分析

应用SSR标记检测国家种质徐州甘薯试管苗库中离体保存5年和8年的24份种质资源及其对应的田间圃材料的遗传稳定性,同时对24份甘薯种质的遗传多样性进行分析.20对SSR引物分析表明,24份甘薯材料扩增得到了清晰的DNA条带30条,其中多态性条带2l条,多态性百分率为70%,全部品种在2种保存方式下谱带一致,说明2种保存方式的效果相同.应用NTSYS软件对材料进行遗传相似性和UPGMA聚类分析,24份甘薯种质资源遗传相似系数在0.57～0.93之间,平均为0.74.在0.72的相似系数上24份材料可以聚成三大类,表明我国的甘薯品种种质资源遗传多样性还是比较丰富的.该研究为甘薯种质资源长期离体保存及甘薯杂交育种提供了理论依据.     

基于SRAP标记的大花蕙兰种质资源遗传多样性分析

采用SRAP技术分析了来源于不同国家和地区的42个大花蕙兰品种及4个国兰原生种之间的遗传亲缘关系。34对引物组合中筛选出29对带型稳定、多态性较好的引物组合,共扩增出398条谱带,其中387条为多态带,多态性比率97.2%,平均每个引物组合扩增多态性带13.3条。46份种质之间的相似系数变化范围为0.60～0.99,平均为0.76。基于29个SRAP标记的扩增结果,利用NTSYS 2.10e软件计算Dice遗传相似系数,并建立UPGMA聚类图,结果表明:在遗传相似系数0.69处将供试材料分为4类,较好地揭示了大花蕙兰品种及国兰原生种间的遗传多样性与亲缘关系,可为大花蕙兰种质资源利用及杂交育种中亲本选择提供科学依据。     

云南大叶种茶树种质资源ISSR指纹图谱构建及遗传多样性分析

利用ISSR标记构建了40份大叶种茶树资源的指纹图谱,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）可以有效地鉴别大叶种茶树种质资源,证明ISSR标记是鉴定茶树资源的有效方法。15条ISSR引物共扩增出275条谱带,其中274条具有多态性,占99．6％。40份材料间平均遗传相似系数、Nei＇s基因多态性（gene diversity）和Shannon＇s信息指数分别为0．4180、0．3797、0．5586。材料间的遗传多样性较高,说明材料间的遗传距离较远,亲缘关系较远。遗传基础较宽。ISSR聚类分析表明,40份种质资源被聚为3个类群,其中Ⅲ类群又聚为3个亚群。亲缘关系树状图在分子水平上清楚地显示了云南大叶种茶树资源间的亲缘关系,为今后茶树育种和杂交亲本的选择提供了依据。     

应用SRAP标记分析黄瓜的遗传差异

利用49对SRAP引物对4种不同类型28份黄瓜种质资源进行了遗传差异分析.结果表明,有35对引物扩增出多态性,在28份资源间共产生724条扩增带,平均每对引物组合产生20.69条;共检测出337个多态性位点,多态性比率为46.5%,每对引物平均为96.3个.利用NTSYS软件分析遗传相似系数,UPGMA方法聚类分析表明,28份资源可聚为两大类.试验结果表明SRAP标记位点多,重复性好,可以揭示不同类型黄瓜种质之间的遗传基础.     

中国甘薯登记品种SSR标记遗传多样性分析

该研究基于TP-M13-SSR分子标记荧光毛细管检测技术,以中国已入库登记的99份甘薯品种为材料,利用SSR标记建立登记品种的“01”数据库,导入DPS软件计算不同品种之间的遗传距离,采用MEGA的邻接法进行聚类分析,并利用Structure混合模型对材料进行遗传结构分析,以探讨各品种的遗传构成以及品种间的亲缘关系,揭示中国甘薯登记品种在DNA水平的相似度,为甘薯品种鉴定、亲本选配和品种改良等提供参考。结果显示:(1)28对引物共扩增出162条谱带,多态率为96.30%,每对引物平均获得5.57条多态性谱带。(2)构建了99份甘薯登记品种的遗传进化树,99份品种的遗传距离在0~0.4646之间,平均遗传距离为0.3077;在遗传距离为0.2670处将99份品种分为3个类群,且同一生态薯区的品种或具有同一亲本的品种首先被聚在一起,但不同生态薯区的品种在各类群中相对分散分布。(3)品种间的遗传基础较窄,部分生态薯区的品种相似性较高;群体结构分析将材料分为3个亚群,与聚类分析分群结果基本一致,其中31份材料拥有混合来源,遗传背景较为复杂。     

利用RAPD标记评价小豆种质遗传多样性

本研究利用10个RAPD引物对180份小豆种质的基因组DNA进行扩增,共扩增出44条带,其中35条具有多态性,比例为79.5%,平均每个引物扩增出3.5条多态性带;平均遗传距离为0.274,变异幅度为0.05～0.60,平均遗传多样性指数为0.692;基于RAPD标记,把180份小豆种质聚类划分为4个组群,该组群的划分与小豆的生态地域性似乎不存在明显的相关性.     

中国主要黑芝麻品种的遗传多样性分析

利用SRAP和SSR各23对引物对20个中国主要黑芝麻品种进行了遗传多样性分析。结果显示,23对SRAP引物共扩增出DNA带672条,其中多态性带152条,比率为22.62%,平均每对引物扩增总带数和多态性条带分别为29.22条和6.61条。23对SSR多态性引物共扩增出DNA带92条,每对引物扩增出3~6条,平均4.00条;每对引物扩增出多态性带1~5条,平均3.09条,多态性带比率平均为77.17%。20个黑芝麻品种间的遗传相似系数为0.8547~0.9804,遗传距离为0.0159~0.0921,遗传多样性匮乏,遗传基础狭窄。聚类结果表明,来自主产区江西的11个品种明显聚在一起,且江西黑芝麻品种的遗传相似系数高于其他省份品种,遗传距离低于其他省份品种,与其他省份品种的差异均达到极显著水平。加强资源引进和利用是拓宽中国黑芝麻品种遗传基础的迫切要求。     

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.     

黄淮麦区小麦品种(系)的ISSR位点遗传多样性分析

选用11个ISSR引物,对黄淮麦区96个小麦推广品种（系）进行遗传多样性分析。共检测到96个多态性位点,每个引物多态性位点数平均为8．7个,变幅为3～23个;ISSR引物的多态性信息含量PIC变幅为0．601～0．941,平均0．791,表明ISSR具有较强的品种间区分能力,是研究小麦种质资源遗传多样性的有效分子标记技术之一。96个品种（系）间,Nei’s遗传相似系数变化范围为0．53～0．91,平均为0．60,品种间遗传相似性变幅较大,表明黄淮麦区不同小麦品种（系）间存在着不同程度的遗传多样性差异。根据品种间遗传相似系数聚类,96份材料被聚成8大类群,共14个亚类,类群与系谱和原产地无关。     

Analysis of the genetic diversity of garlic (Allium sativum L.) by simple sequence repeat and inter simple sequence repeat analysis and agro-morphological traits

The genetic diversity of 39 garlic accessions was investigated using eight simple sequence repeat (SSR) primer combinations and 17 inter-simple sequence repeat (ISSR) primer combinations. A total of 109 polymorphic loci were detected among these accessions, with an average of 4.63 polymorphic loci per SSR primer combination and 4.29 polymorphic loci per ISSR primer combination. The mean effective number of alleles, the mean Nei's genetic diversity, and the mean Shannon's information index for SSR were 1.4799, 0.2870, and 0.4378, respectively; and those for ISSR were 1.4847, 0.2898 and 0.4415, respectively. Cluster analysis, using the unweighted pair-group method with arithmetic averages (UPGMA) based on the allele frequency data, classified the accessions into three groups. The results of principal component analysis (PCA) were consistent with those of the cluster analysis. PCA showed that each of these three groups exhibited significant variation in agro-morphological traits. These findings suggest that the eight SSR and 17 ISSR primers identified could define valuable markers for genetic diversity for use by plant breeders.     

河北省绿子叶黑豆种质资源表现型和ISSR标记遗传多样性分析

为了揭示河北省绿子叶黑豆种质资源的遗传多样性,为其研究利用提供理论根据,以46份原产河北省的绿子叶黑豆种质资源为试验材料,对其基于表型性状及ISSR标记鉴定结果进行了聚类分析,结果表明:7个ISSR引物共检测出60个等位变异,平均每个位点有8.6个等位变异,变幅为5～17个;ISSR引物的多态性信息量PIC变幅为0.721～0.927,平均0.820;利用表型性状和ISSR标记数据进行品种间遗传多样性分析,遗传相似系数变化范围分别为0.07～0.53和0.43～1.00,平均为0.284和0.704,遗传相似性变幅较大,河北省不同绿子叶黑豆品种间存在着丰富的遗传多样性。聚类结果显示,类群与品种来源地有关。     

Genetic characterization of Iranian safflower (Carthamus tinctorius) using inter simple sequence repeats (ISSR) markers

Safflower (Carthamus tinctorious L.) is valued as a source of high quality vegetable oil. 20 ISSR primers were used to assess the genetic diversity of 18 accessions of safflower collected from different geographical regions of Iran. The ISSR primers combinations revealed 57.6 % polymorphism, among 338 genetic loci amplified from the accessions. The sum of effective number of alleles and observed number of alleles were 29.76 and 36.77, respectively. To understand genetic relationships among these cultivars, Jacquards’ similarity coefficient and UPGMA clustering algorithm were applied to the ISSR marker data set. ISSR markers grouped accessions into two main clusters and four sub clusters. Also, the principal coordinate analysis (PCoA) supported the cluster analysis results. The results showed these genotypes have high genetic diversity, and can be used for alternative safflower breeding program.     

Population structure and genetic diversity in bottle gourd [Lagenaria siceraria (Mol.) Standl.] germplasm from India assessed by ISSR markers

Genetic diversity analysis was undertaken in 42 geographically distant genotypes accessions of bottle gourd (Lagenaria siceraria) from India northeastern (14) and northern region (28) using inter-simple sequence repeat (ISSR) markers. A total of 209 amplified bands were obtained from 20 ISSR primers used in this study, of which 186 were polymorphic with 89.00 % band polymorphism. Various parameters namely, observed number of alleles, effective number of alleles, Nei’s gene diversity/heterozygosity, resolving power, Shannon’s information index and gene flow were estimated under experiment. Jaccard’s similarity coefficient matrix was generated for pairwise comparisons between individual ISSR profiles and UPGMA cluster analysis based on this matrix showed clustering into six groups. Jaccard’s coefficient of similarity values ranged from 0.409 to 0.847, with a mean of 0.628 revealing a moderate level of genetic diversity. The Bayesian model-based approach to infer hidden genetic population structures using the multilocus ISSR markers revealed two populations among the 42 genotypes. This is the first report on the assessment of genetic variation using ISSR markers in this medicinal vegetable plant, and this study of diversity analysis will be helpful in analyzing future hybrid breeding strategy and devising effective germplasm exploration and conservation strategy.     

7种川产淫羊藿属植物遗传多样性及亲缘关系的ISSR分析

利用ISSR分子标记对7种12居群的川产淫羊藿属植物进行遗传多样性及亲缘关系分析。结果发现23个ISSR随机引物共扩增194条清晰条带,其中169条具多态性,平均多态性位点比率为87.11%,有效等位基因数Ne=1.534 2,Nei基因多样性指数H=0.314 4,Shannon多样性指数I=0.469 7,表明物种间遗传多样性丰富。7种川产淫羊藿属植物间的遗传相似系数为0.653 2～0.748 9,聚类分析和主成分分析直观的显示出12份供试材料间的亲缘关系,并将其分为两类。表明ISSR分子标记技术可以用于川产淫羊藿属植物的遗传多样性和亲缘关系分析。     

利用RAPD和ISSR分子标记分析怀地黄种质遗传多样性

用RAPD与ISSR技术对怀地黄的8个品种和2个脱毒品系进行了种质遗传多样性分析。分别从80条RAPD引物和44条ISSR引物中筛选出适合怀地黄种质分析的17条RAPD引物和10条ISSR引物,用于RAPD和ISSR分析。17条RAPD引物共扩增出177条带, 多态性位点数为109; 多态性位点比率为61.58%;平均多样性指数(I)为0.3135;每个位点的有效等位基因数（Ne）是1.3641; 10条ISSR引物共扩增出110条带. 多态性位点数为79; 多态性位点比率为71.58%;平均多样性指数(I)为0.3577;每个位点的有效等位基因数（Ne）是1.4037。 基于扩增条带数据库建立了各自的Jaccard遗传相关系数矩阵,构建了相似的分子树状图,将10个供试材料分为2类:一类群含组培85.5、大田85.5、组培9302、大田9302、金状元和金白6个材料;另一类群含北京1号、大红袍、地黄9104和野生地黄4个材料。两种分子标记的分析结果呈极显著正相关(r＝0.649)。结果表明,RAPD与ISSR标记适合于怀地黄种质遗传多样性分析,ISSR标记技术是一种多态性和重复性优于RAPD技术的实用技术。     

ISSR Markers as a Tool for the Assessment of Genetic Diversity in Passiflora

Genetic variation among sweet, purple, and yellow passion fruit accessions was assessed using inter-simple sequence repeat (ISSR) markers. Eighteen ISSR primers were used to evaluate 45 accessions. The number of polymorphic bands per primer varied from 4 to 22, with 12.4 bands per primer on average. Nei's genetic distance between accessions ranged from 0.04 to 0.35. Clustering using the neighbor-joining method resulted in the formation of 11 major clusters. It was not possible to classify the accessions according to their geographic origin, showing that there is no structure in the gene bank. The overall mean Shannon-Weaver diversity index was 0.32, indicating good resolution of genetic diversity in passion fruit germplasm using ISSR markers. Our results indicate that ISSR can be useful for genetic diversity studies, to provide practical information for parental selection and to assist breeding and conservation strategies.     

Analysis of genetic relationship in mutant silkworm strains of Bombyx mori using inter simple sequence repeat （ISSR） markers

Amplified inter simple sequence repeats (ISSR) markers were used to determine genetic relationships among mutant silkworm strains of Bombyx mori. Fifteen ISSR primers containing simple sequence repeat (SSR) motifs were used in this study. A total of 113 markers were produced among 20 mutant swains, of which 73.45% were found to be polymorphic. In selected mutant genetic stocks, the average number of observed allele was (1.7080±0.4567), effective alleles (1.5194±0.3950) and genetic diversity (Ht) (0.2901±0.0415). The dendrogram produced using the unweighted pair group method with arithmetic means (UPGMA) and cluster analysis made using Nei's genetic distance resulted in the formation of one major group containing 6 groups separated 20 mutant silkworm strains. Therefore, ISSR amplification is a valuable method for determining the genetic variability among mutant silkworm swains. This efficient molecular marker would be useful for characterizing a considerable number of silkworm swains maintained at the germplasm center.