利用RAPD和ISSR分子标记分析地黄种质遗传多样性

用RAPD与ISSR技术对地黄的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.     

中国扁蓿豆遗传多样性的ISSR分析

利用ISSR标记,对来源于中国7个省(市)的44个扁蓿豆居群的亲缘关系进行了分析。从80条ISSR引物中筛选出多态性强、重复性好的16条引物,对44个扁蓿豆居群基因组DNA进行扩增,共扩增出133条谱带,平均每个引物扩增出8.31条带,其中多态性带115条,多态性位点百分率为87.08%。扁蓿豆种质间遗传相似系数变化范围在0.436～0.908之间。利用UPGMA聚类分析,44个扁蓿豆居群被划分为8个类群,与地理来源有较高的相关性。     

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.     

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。     

38份瓠瓜种质资源遗传多样性的ISSR分析

采用ISSR分子标记技术对源自中国7个省份的38份瓠瓜种质进行遗传多样性分析。12个ISSR引物共扩增出96条多态性带,平均每个引物扩增的多态性带数为8条,多态性比率平均为83.5%。聚类分析将供试的38份种质分为4个类群8组,主坐标分析将其分为4个类群10组。ISSR分子标记的分类结果与瓠瓜的农艺性状分类和地理分布有一定的相关性。     

甘肃省冬虫夏草遗传多样性的ISSR分析

对采自甘肃省3个冬虫夏草主产区域6个具有代表性地方的18个样本进行ISSR分析。15条ISSR引物共扩增得到条带清晰并呈多态性的95条谱带,每一引物扩增获得的ISSR条带数在3－9条之间,扩增片段集中在300－3,000bp。基于遗传相似性系数（GS）、不加权成对群算术平均法（UPGMA）构建的系统树分析,可以看出：分离自同一株虫草上不同部位的样本无显著遗传差异;同一地点样本间的遗传分化较小;不同地域的样本间存在着较大的遗传分化,遗传多样性较丰富。同时6个地方的冬虫夏草明显地分为3个区域,而在同一区域不同     

应用RAPD和ISSR标记对24份花生栽培种材料进行遗传多样性分析

利用RAPD引物和ISSR引物分析我国24份花生栽培种材料的遗传多样性.结果表明:所选的RAPD引物和ISSR引物中分别有13条引物和10条引物扩增出了清晰并可重复的条带,共扩增出123条带和87条带,平均每条引物扩增出9.5条带和8.7条带,其中多态性带分别占条带总数的47.15％和57.47％,平均每条引物扩增出4...     

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。     

落叶松种间及无性系间ISSR鉴别技术的研究

采用ISSR分子标记技术对兴安、长白和日本落叶松种间以及不同无性系进行了鉴别。从49条引物中筛选出13条ISSR引物可以对落叶松种间和无性系间进行鉴别,特异条带个体的百分率为100%,该项技术为落叶松新品种以及良种的准确鉴别提供了新的途径和手段：其中5条引物在日本落叶松、兴安落叶松和长白落叶松不同位置扩增出特异谱带,作为种的鉴定的标准,有9条引物可以对落叶松种内不同无性系分别扩增出特异片段,进行无性系的鉴别。     

利用SSR与RAPD分子标记评估甘蔗品种的遗传多样性

利用SSR与RAPD两种分子标记对美国、中国台湾以及中国大陆不同甘蔗育种单位选育的甘蔗品种或亲本材料的遗传多样性进行评估。其中19对SSR引物共扩增出87条带,多态性带为84条,多态性比例为96.55%,扩增出的条带数范围为2~8条,平均每对引物扩增出4.58条带,引物的PIC值范围为0.34~0.93,平均0.64。21条RAPD引物共扩增出184条带,扩增条带数范围为3~16,平均每条引物扩增8.76条带,其中多态性带为184,多态性比例为100%,引物PIC范围为0.53~0.97,平均0.86。结果表明,两种分子标记都能较好的评估甘蔗品种的遗传多样性。     

A Comparative Analysis of ISSR and RAPD Markers for Study of Genetic Diversity in Shisham (<Emphasis Type="Italic">Dalbergia sissoo</Emphasis>)

Shisham (Dalbergia sissoo) is one of the most preferred timber tree species of South Asia. Two DNA-based molecular marker techniques, intersimple sequence repeat (ISSR) and random amplified polymorphism DNA (RAPD), were compared to study the genetic diversity in this species. A total of 30 polymorphic primers (15 ISSR and 15 random) were used. Amplification of genomic DNA of 22 genotypes, using ISSR analysis, yielded 117 fragments, of which 64 were polymorphic. Number of amplified fragments with ISSR primers ranged from five to ten and varied in size from 180 to 1,900 bp. Percentage polymorphism ranged from 0 to 87.5. The 15 RAPD primers produced 144 bands across 22 genotypes, of which 84 were polymorphic. The number of amplified bands varied from five to 13, with size range from 180 to 2,400 bp. Percentage polymorphism ranged from 0 to 100, with an average of 58.3 across. RAPD markers were relatively more efficient than the ISSR assay. The mental test between two Jaccard’s similarity matrices gave r ≥ 0.90, showing very good fit correlation in between ISSR- and RAPD-based similarities. Clustering of isolates remained more or less the same in RAPD and combined data of RAPD and ISSR. The similarity coefficient ranged from 0.734 to 0.939, 0.563 to 0.946, and 0.648 to 0.920 with ISSR, RAPD, and combined dendrogram, respectively.     

A comparative analysis of genetic diversity in blackgram genotypes using RAPD and ISSR markers

Random amplified polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) markers were used to study the DNA polymorphism in elite blackgram genotypes. A total of 25 random and 16 ISSR primers were used. Amplification of genomic DNA of the 18 genotypes, using RAPD analysis, yielded 104 fragments that could be scored, of which 44 were polymorphic, with an average of 1.8 polymorphic fragments per primer. Number of amplified fragments with random primers ranged from two (OPA-13) to nine (OPK-4) and varied in size from 200 bp to 2,500 bp. Percentage polymorphism ranged from 16.6% (OPK-7) to a maximum of 66.6% (OPE-5, OPH-2, and OPK-8), with an average of 42.7%. The 16 ISSR primers used in the study produced 101 bands across 18 genotypes, of which 55 were polymorphic. The number of amplified bands varied from two (ISSR 858) to ten (ISSR 810), with a size range of 200–2,200 bp. The average numbers of bands per primer and polymorphic bands per primer were 6.3 and 3.4, respectively. Percentage polymorphism ranged from 25% (ISSR 885) to 100% (ISSR 858), with an average percentage polymorphism of 57.5% across all the genotypes. The 3-anchored primers based on poly(GA) and poly(AG) motifs produced high average polymorphisms of 54.98% and 58.32%, respectively. ISSR markers were more efficient than the RAPD assay, as they detected 57.4% polymorphic DNA markers in Vigna mungo as compared to 42.7% for RAPD markers. The Mantel test between the two Jaccards similarity matrices gave r =0.32, showing low correlation between RAPD- and ISSR-based similarities. Clustering of genotypes within groups was not similar when RAPD and ISSR derived dendrogram were compared, whereas the pattern of clustering of the genotypes remained more or less the same in ISSR and combined data of RAPD and ISSR.     

Evaluation of the genetic fidelity of in vitro-propagated gerbera (<Emphasis Type="Italic">Gerbera jamesonii</Emphasis> Bolus) using DNA-based markers

The genetic fidelity of in vitro-raised gerbera clones was assessed by using random amplified polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) markers. Out of 35 RAPD and 32 ISSR primers screened, only 12 RAPD and 10 ISSR primers produced clear, reproducible and scorable bands. The 12 RAPD primers produced 54 distinct and scorable bands, with an average of 4.5 bands per primer. The number of scorable bands for ISSR primers varied from 3 (ISSR-14) to 9 (ISSR-07), with an average of 5.5 bands per primer. The number of bands generated per primer was greater in ISSR than RAPD. All banding profiles from micropropagated plants were monomorphic and similar to those of the mother plant. A similarity matrix based on Jaccard’s coefficient revealed that the pair-wise value between the mother and the in vitro-raised plantlets was 1, indicating 100% similarity. This confirmed the true-to-type nature of the in vitro-raised clones.     

The effectiveness of ISSR profiling for studying genetic diversity of Aspergillus flavus from peanut-cropped soils in China

We used markers based on inter-simple sequence repeats (ISSR) to examine the genetic diversity of Aspergillus flavus from peanut-cropped soils in China. Of the 100 primers, 22 primers produced clear and reproducible ISSR bands, and the di-nucleotide accounted for 73% of those primers. The size of DNA fragments ranged from 100 to 2000 bp. The primer UBC 834 produced the largest number of polymorphic bands (10), followed by UBC 809, UBC 817, UBC 895, and UBC 899, which all amplified 7 polymorphic bands. Using the five primers, the tested strains were clearly separated based on genetic similarity coefficients (GSC). The range of GSC was from 0.59 to 0.90. In unweighted pair-group method with arithmetic averages (UPGMA) analysis, the A. flavus samples grouped in five clusters. The study showed that the ISSR technology is an effective molecular approach for studying diversity of A. flavus from peanut-cropped soils in China.     

云南黑籽南瓜种质遗传多样性的RAPD和ISSR分析

摘要: 采用RAPD和ISSR分子标记技术对来源于云南省6个地州13份的黑籽南瓜种质进行遗传多样性分析。结果表明：6个RAPD和6个ISSR引物分别扩增出43条和41条带,多态性比率分别为90.70%和51.21%;RAPD和ISSR标记检测供试材的遗传相似性系数(Gs)范围,分别为0.340-0.895和0.162-0.941,ISSR(平均GS值0.698)检测多态性效果高于RAPD(平均GS值0.481)。RAPD标记聚类分析将供试种质分为3个类群5组;ISSR标记聚类分析将供试种质分为4个类群6组,RAPD和ISSR标记的遗传相似性系数呈显著相关(r=0.536)。基于UPGMA聚类结果,可为黑籽南瓜的引种栽培或品种改良提供参考。     

苦瓜种质遗传多样性的RAPD和ISSR分析

采用RAPD和ISSR分子标记技术对38份苦瓜种质进行遗传多样性分析。结果表明:10个RAPD和10个ISSR引物分别扩增出93条和81条带,多态性比率分别为50.54%和61.29%;RAPD和ISSR标记检测供试材料的遗传相似性系数(GS)范围,分别为0.287~1和0.221~1,ISSR(平均GS值0.672)检测多态性效果高于RAPD(平均GS值0.694)。RAPD标记聚类分析将供试种质分为3个类群6组,分类结果与苦瓜瓜瘤的表型分类比较相似;ISSR标记聚类分析将供试种质分为3个类群7组,ISSR标记划分类群与形态上以颜色分类比较接近。RAPD和ISSR标记的遗传相似性系数呈显著相关(r=0.550)。两个标记整合后聚类分析可检测到更大的遗传变异,结果与苦瓜的农艺性状分类和地理分布有一定的相关性。     

引起蜘蛛流行病的紫色野村菌种群异质性

应用ISSR分子标记对安徽琅琊山自然保护区和牯牛降自然风景区引起蜘蛛流行病的紫色野村菌Nomuraea atypicola遗传多样性进行了研究。筛出的9个ISSR引物共扩增出117条带,多态性比率高达94%。ISSR扩增结果显示:22株紫色野村菌之间的遗传分化较大,Jaccard遗传相似系数为0.48-0.88,平均为0.71。UPGMA方法构建的系统树表明,在遗传相似系数0.60处,22株紫色野村菌按照两个自然保护区明显分为2大类群。第一大类是分离自琅琊山不同蜘蛛的10株菌株,其种群内平均遗传相似系数为0.74。第二大类是采自牯牛降不同蜘蛛的12株菌株,其种群内平均遗传相似系数为0.76。种群内的遗传相似性虽高于种群间的遗传相似性,但未见两株菌株的ISSR指纹图谱相同或高度相似。这表明,不管是在琅琊山还是在牯牛降,紫色野村菌的两个种群均无优势的流行菌株。两地的蜘蛛流行病都是由高度异质的紫色野村菌种群造成的。紫色野村菌的菌株遗传相似性和地理来源相关而和寄主无关。     

Comparative Analysis of RAPD and ISSR Markers for Characterization of Sesame (Sesamum indicum L) Genotypes

The determination of genetic differences among crop genotypes has become the primary need to grant patent and the protection of Plant Breeder Rights (PBR). In the present study RAPD and ISSR markers were employed for the characterization of 16 sesame genotypes. Twenty six RAPD and 17 ISSR primers that generated clear and reproducible banding patterns amplified 194 and 163 bands, respectively among 16 sesame genotypes. Both RAPD and ISSR primers showed maximum discrimination power, and produced putative variety specific bands, which could be used for the identification of all the sesame genotypes, individually. However, only AG and CA based ISSR primers were found effective in the discrimination of genotypes. A poor correlation was observed between the matrices produced by RAPD and ISSR primers, which might be due to the array of different sites of the genome. Though, there was greater similarity among sesame genotypes (0.78 for RAPD and 0.71 for ISSR), the observed genetic diversity (0.22 for RAPD and 0.29 for ISSR), was found effective for the characterization of sesame genotypes. It is suggested that putative variety specific RAPD and ISSR markers could be converted to Codominant sequence characterized amplified region/sequence tagged site (SCAR /STS) markers to develop robust variety specific markers.     

Determination of genetic diversity among Saccharina germplasm using ISSR and RAPD markers

Various species of genus Saccharina are economically important brown macroalgae cultivated in China. The genetic background of the conserved Saccharina germplasm was not clear. In this report, DNA-based molecular markers such as inter simple sequence repeats (ISSR) and random amplified polymorphic DNA (RAPD) were used to assess the genetic diversity and phylogenetic relationships among 48 Saccharina germplasms. A total of 50 ISSR and 50 RAPD primers were tested, of which only 33 polymorphic primers (17 ISSR and 16 RAPD) had an amplified clear and reproducible profile, and could be used. Seventeen ISSR primers yielded a total of 262 bands, of which 256 were polymorphic, and 15.06 polymorphic bands per primer were amplified from 48 kelp gametophytes. Sixteen RAPD primers produced 355 bands, of which 352 were polymorphic, and 22 polymorphic bands per primer were observed across 48 individuals. The simple matching coefficient of ISSR, RAPD and pooled ISSR and RAPD dendrograms ranged from 0.568 to 0.885, 0.670 to 0.873, and 0.667 to 0.862, revealing high genetic diversity. Based on the unweighted pair group method with the arithmetic averaging algorithm (UPGMA) cluster analysis and the principal components analysis (PCA) of ISSR data, the 48 gametophytes were divided into three main groups. The Mantel test revealed a similar polymorphism distribution pattern between ISSR and RAPD markers, the correlation coefficient r was 0.62, and the results indicated that both ISSR and RAPD markers were effective to assess the selected gametophytes, while matrix correlation of the ISSR marker system (r = 0.78) was better than that of the RAPD marker system (r = 0.64). Genetic analysis data from this study were helpful in understanding the genetic relationships among the selected 17 kelp varieties (or lines) and provided guidance for molecular-assisted selection for parental gametophytes of hybrid kelp breeding.