福建省枳椇种质资源遗传多样性的ISSR分析

通过建立和优化枳椇Hovenia acerba的ISSR反应体系,并利用ISSR分子标记方法,对福建省12个种源地35份枳椇材料进行遗传多样性及亲缘关系研究。枳椇遗传多样性分析的ISSR最佳反应体系为反应总体积25 μL,10×Ex Taq Buffer(Mg2+ plus) 2.5 μL,dNTP Mixture 375 μmol·L-1,引物0.4 μmol·L-1,DNA模板75 ng,Ex Taq酶1 U,ddH2O 14.55 μL。程序：预变性94 ℃ 5 min;变性 94 ℃ 30 s,退火50 ℃ 1 min,延伸72 ℃ 90 s,共 35 个循环;最后延伸72 ℃ 7 min。利用筛选出的10个ISSR引物共检测了基因组DNA中175个位点,其中多态性位点155个,占总位点数的88.57%。供试材料观测等位基因数(Na) 1.8857、有效等位基因数(Ne) 1.4300,Nei’s基因多样性指数(H) 0.2572,Shannon多样性指数(I) 0.3959。UPGMA聚类分析表明,以遗传相似系数0.74为阈值,可将35份枳椇分成四大组。ISSR标记有效地揭示福建省枳椇种质资源丰富的遗传多样性,具较大开发利用价值。     

广东省猴耳环遗传多样性研究

为了解猴耳环(Archidendron clypearia)种质资源的遗传多样性,以广东省12个野生猴耳环群体的146份种质资源为材料,采用SSR分子标记技术对其遗传多样性和亲缘关系进行分析.结果表明,21对SSR引物共检测到249个等位基因,平均每对SSR引物检测的等位基因数(Na)为11.857,有效等位基因数(N...     

山药种质资源的ISSR分析及初级核心种质库的构建

采用ISSR分子标记技术对中国不同产地的35份山药种质资源进行遗传多样性分析,并用最小遗传距离逐步抽样法构建核心种质库。结果表明:(1)筛选出12个有效引物共扩增出142个位点,多态性比率为97.18%,平均Shannon’s信息指数(I)为0.4230,平均Nei’s基因多样性指数(h)为0.269 4,平均有效等位基因数(Ne)为1.427 1,平均等位基因数(Na)为1.971 8,说明35份山药种质遗传多样性很丰富。(2)聚类分析表明,种质间的遗传相似系数介于0.54~0.97之间,其中来源地不同的个别种质间的遗传相似系数也很高。(3)经6次逐步抽样,随着抽取种质数目的减少,种质库遗传多样性参数变化不明显,而多态性比率在其中5次逐步抽样中呈现下降趋势;但抽样4在抽样数是抽样前的31%时,多态位点率仍可达到抽样前的97.8%,说明抽样4所构建的山药核心种质库最具代表性。     

新疆枸杞种质资源遗传多样性分析及DNA指纹图谱构建

利用SCoT分子标记对新疆枸杞种质资源进行遗传多样性分析和DNA指纹图谱构建,为杂交育种和种质鉴定提供理论依据。结果显示:9条SCoT引物扩增出条带256条,其中219条为多态性条带,多态性比率达85.62%,多态性信息含量(PIC)值变化范围在0.77~0.91之间,平均值为0.85,观测等位基因数(Na)、有效等位基因数(Ne)、Nei's基因多样性指数(H)和Shannon信息指数(I)的平均值分别为1.8562、1.4350、0.2611、0.3989,聚类分析表明,遗传相似系数变化范围在0.5938~0.8398之间,在遗传相似系数为0.66和0.71处,可将30份材料分别分为2大类和4个亚类,主坐标分析结果和聚类结果基本一致,同时利用5条多态性SCoT引物构建了30份材料的DNA指纹图谱。新疆枸杞种质资源遗传多样性水平较高,且SCoT分子标记适于新疆枸杞种质资源遗传多样性分析和DNA指纹图谱构建,该研究结果为新疆枸杞种质资源评价、鉴定和新品种选育奠定了基础。     

中型狼尾草种质资源遗传多样性的ISSR分析

运用ISSR标记对采自云南的25份野生种质和4份驯化新品系中型狼尾草材料进行遗传多样性分析。结果显示:(1)50条ISSR引物中共筛选出10条能扩增出清晰条带且多态性明显的引物,29份材料DNA共获得72个扩增位点,其中多态性位点62个,多态性比率为87.4%,平均每条引物扩增位点为7.2个;平均观察等位基因数(Na)、有效等位基因数(Ne)、Shannon多样性信息指数(I)和Nei’s基因多样性指数(H)分别为1.861 1、1.742 8、0.561 0和0.395 9;种质材料间的遗传相似性系数变幅为0.236~0.903,表现出丰富的遗传多样性。(2)利用UPGMA聚类分析,以遗传相似系数0.51为界,29份材料划分为4大类,但Mantel检测表明29份种质材料的遗传聚类和地理距离之间不存在显著的正相关关系(r=0.437 0,P=0.204 6)。研究结果首次从分子水平揭示了中型狼尾草的遗传多样性和变异水平,为合理地引种、驯化、保护和利用中型狼尾草野生资源提供了重要的参考依据和数据支持。     

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.     

黄瓜多样性固定核心样本集的构建与评价

利用149对具有多态性的In Del引物对473份黄瓜初选核心种质自交系进行遗传多样性分析。采用3种方法 12种取样比例对该初级遗传多样性固定群体进行抽样获得候选多样性固定核心样本集(GDFCC),使用等位基因数(Na)、有效等位基因数(Ne)、Shannon's信息指数(I)、基因多样性指数(gene diversity)、多态性信息含量(PIC)、总等位位点数(total number of loci)、等位位点保留百分率(retention rate of loci)评价候选多样性固定核心样本集的多样性和代表性,结果表明,采用逐级聚类+稀有基因优先取样法并按照15%取样比例构建出的多样性固定核心样本集的效果较好。比较发现,该核心样本集的Ne、I、基因多样性指数和PIC值均接近或高于初级遗传多样性固定群体,且对原始群体的等位位点的保留百分率为99.68%。入选多样性固定核心样本集的材料来自15个国家和国内18个省市。该研究为今后黄瓜优异基因资源的挖掘利用提供了代表性强、覆盖度广、遗传稳定的研究群体,将有利于黄瓜种质资源的高效研究利用。     

玉米抗南方锈病种质资源初步鉴定及遗传多样性分析

南方锈病是玉米生产上的重要病害。2013-2015年在广西南宁和北京昌平对903份玉米种质资源进行了抗南方锈病的初步鉴定与评价,并利用SSR标记对筛选出的部分抗性材料进行了遗传多样性分析。结果表明,在903份种质中,8份自交系在广西南宁和北京昌平均对南方锈病表现高抗(HR),占总鉴定种质的0.9%;29份材料表现为抗病(R),占比3.2%,包括27份自交系和2份农家种;中抗种质(MR)100份,占比11.1%;感病(S)和高感(HS)种质分别为181和585份,占鉴定材料的20.0%和64.8%。由此可见,玉米资源中高抗南方锈病的种质较为匮乏,在不同地点均表现高抗的材料是难得的抗源。不同地理来源的玉米种质对南方锈病的抗性水平存在较大差异,其中抗性资源较为丰富的是源自内蒙古和山西的种质。42对多态性SSR引物在50份抗锈病材料中,共扩增出141个条带,多态性条带139个,多态位点百分率(PPB)为98.58%。平均等位基因数(Na)1.98,平均有效等位基因数(Ne)1.59,平均Nei's基因多样性(H)0.34,平均多态性信息含量(PIC)0.78,平均Shannon's信息指数(I)0.51;通过UPGMA聚类分析,50份抗病材料被划分为2个类群,其中,第Ⅰ类群又可划分为5个亚类,表现出较高的遗传多样性,为抗病育种中抗源的选择和利用提供参考信息。     

三叶青种质资源遗传多样性的SRAP分析

对我国三叶青种质资源64个样本的遗传多样性进行SRAP分析。结果表明,从30条引物中筛选出10条条带清晰、重复性好的引物对64份供试材料的基因组DNA进行扩增.扩增出了57个多态位点,多态百分数为66. 67%~100%(均值为90. 38%),每条引物扩增得到的多态位点为4~10(均值为5. 7);平均检测等位基因数(Na)、平均有效等位基因数(Ne)、平均Nei's基因多样性指数(H)、平均Shannon多样性指数(I)分别为1. 9038、1. 5150、0. 3009和0. 45259;遗传相似系数的变异范围为0. 4603~0. 9206。通过UPGMA法聚类,在遗传相似性系数为0. 7256处,64份供试材料可分为9组;在江西三叶青种质中,既可与湖北、湖南、福建、广西等地三叶青种质聚为一类,也可与浙江三叶青种质聚为一类。此外,根据引物EM3ME3、EM13ME13和EM14ME14构建了64个基因型的指纹图谱。这些数据可为我国三叶青种质资源的评价、鉴定和新品种选育提供参考。     

利用RAPD标记分析大麦种质资源的遗传多样性

利用RAPD标记对19份西藏近缘野生大麦材料、33份我国不同省市的地方品种以及8份国外引进大麦品种共60份大麦种质资源的遗传多样性进行检测.结果表明材料间遗传差异明显.32个RAPD引物中,有25个引物(占78.13%)可扩增出清晰且具多态性的条带,另外7个引物能扩增出1～3条清晰但无多态性的条带.每个引物可扩增出1～8条多态性带,平均为3.72条.32个引物共产生119条DNA片段,其中87条具有多态性,多态性比率(PPB)为73.11%,平均多态信息量(PIC)为0.434;每个位点平均有效等位基因数(Ne)为2.304;材料间遗传相似系数GS变化范围为0.757～0.981,平均值为0.871.19份来源于西藏的近缘野生大麦材料间GS值变幅为0.818～0.969,平均为0.892;33份我国栽培大麦地方品种间的GS值变化范围为0.783～0.981,平均为0.879;8份分别来自8个国家的栽培大麦品种间的GS值变幅为0.820～0.956,平均为0.882.根据RAPD标记分析的结果,对60份大麦种质资源进行聚类分析,在平均GS值0.871水平上60份大麦材料可聚为5类,聚类结果能在一定程度上反应材料的地理分布关系,但某些相同地理来源的材料也较分散地分布在整个聚类树中.本研究从分子水平上进一步证明了我国栽培大麦丰富的遗传多样性,是世界栽培大麦的遗传多样性中心之一.     

利用SSR标记构建萝卜种质资源分子身份证

为了保护我国特有的优异萝卜资源,促进资源的有效区分和合理利用,保障我国萝卜产业发展,目前需积极开展萝卜种质资源的特异性鉴定和种质识别技术研究。本研究基于SSR分子标记、信息处理和图像处理技术,筛选出22对SSR引物对75份来源和特征不同的代表性萝卜种质进行鉴定,共扩增出153条带,其中多态性条带为87条,平均多态性位点百分率为55.49%,平均每对引物可扩增出6.95条带和3.95条多态性带,有效地显示出每份萝卜种质的特异性。基于最少引物鉴定最多种质的原则,利用MATLAB程序筛选出8对SSR引物,依据8对引物的扩增数据,经过多态性谱带的有序编码转换,构建出75份萝卜种质分子身份证。结果显示利用SSR标记构建萝卜种质分子身份证进行种质资源的鉴定和保护是可行的。     

Development and Characterization of RAPD and Microsatellite Markers for Genetic Variation Analysis in the Critically Endangered Yellow Catfish <Emphasis Type="Italic">Horabagrus nigricollaris</Emphasis> (Teleostei: Horabagridae)

Random-amplified polymorphic DNA (RAPD) and microsatellite markers were developed and used for the analysis of genetic variability in the critically endangered yellow catfish Horabagrus nigricollaris, sampled from the Chalakkudy River, Kerala, India. Eight RAPD and five microsatellite markers were detected to genotype the species. In RAPD, the 73 fragments were 20.55% polymorphic, whereas 4 polymorphic loci (80%) were obtained in microsatellites. In microsatellites, the number of alleles across the 5 loci was 1-5, and the range of heterozygosity was 0.25-0.5. The mean observed number of alleles was 2.4, and the effective number was 1.775 per locus. The average heterozygosity across all investigated samples was 0.29, indicating a significant deficiency of heterozygotes in this species. RAPD and microsatellite methods report a low degree of gene diversity and lack of genetic heterogeneity in the population of H. nigricollaris, emphasizing the need for fishery management, conservation, and rehabilitation of this species.     

Evaluation of genetic diversity and population structure of polygonati rhizoma germplasms: implications for better crop development and conservation of a traditional Chinese medicine

Polygonati rhizoma (PR) is an important and widely used product in Chinese traditional medicine and edible goods. The time-consuming nature of breaking dormancy in both rhizomes and seeds means that improving variety selection is limited to collection, identification, and selection of germplasms. In this study, we used two DNA-based molecular marker techniques—inter simple sequence repeat (ISSR) and start codon targeted (SCoT)—to assess the genetic diversity and population structure among PR source plants collected from 47 different regions and belonging to 12 populations (P1–P12). For molecular markers analysis, 15 ISSR and 10 SCoT markers were tested. Total number of 159 fragments (150–4000 bp) were amplified based on ISSR analysis with a range from 6 to 17 bands, 153 of them were polymorphic, ranging from 97.27 to 100%. For SCoT analysis, 164 polymorphic bands (150–5000 bp) were observed, varying from 14 to 19 bands for each primer. Nei’s genetic diversity analysis showed that the highest value was found in P11 for ISSR and P4 for SCoT markers. The highest Nei’s genetic diversity value was observed in P5 for combined markers and the low in P2. Nei’s dendrogram constructed with combined markers indicated a 75–89% of genetic similarity coefficient among populations. Population structure analysis revealed an optimum number of three groups, the same as their geographical distribution. This knowledge on PR genetic diversity can be used in future breeding programs, genetic improvement, product enhancement, and germplasms conservation.     

Molecular characterization of sawtooth oak (Quercus acutissima) germplasm based on randomly amplified polymorphic DNA

Sawtooth oak (Quercus acutissima) is a predominant tree species in the deciduous broad-leaved forest in China. It distributes in a large landscape area and can disperse in various ecology types. Molecular study on sawtooth oak can provide valuable information about the genetic diversity level and genetic relatedness on this important tree species. Insight into the genetic structure also provides resources of a species with its current feature and future evolutionary potential. The genetic structure of sawtooth oak was investigated by randomly amplified polymorphic DNA (RAPD). Twelve RAPD markers were used to assess genetic diversity of 408 individuals from 17 provenances enveloping most of the current distribution area of sawtooth oak. A total of 66 amplification products were detected, of which 49 bands (74.24 %) were polymorphic. Nei’s gene diversity, 0.2409, indicated a relatively high level of genetic variation in sawtooth oak germplasm. Analysis of molecular variance showed that most of the genetic diversity (87 %) was allocated within provenances. A combination of UPGMA dendrogram and STRUCTURE analysis was employed to estimate the genetic relationships of sawtooth oak germplasm; interestingly, the two methods presented similar grouping pattern with few discrepancies. Results revealed that 16 out of 17 provenances were clustered into one group, while the other 1 (LQ provenance) constituted a separate cluster. The data presented in this study suggested that the RAPD method was a valuable tool for estimation of genetic diversity and genetic relatedness of sawtooth oak germplasm. The present study also gave useful implications for germplasm conservation and new cultivar development for this promising energy tree species.     

Intra-specific genetic diversity in wild olives (Olea europaea ssp cuspidata) in Hormozgan Province, Iran

Wild olive (O. europaea ssp cuspidata) plants grow in various regions of Iran and are expected to have considerable genetic diversity due to adaptation to the various environmental conditions. We examined the genetic diversity of four populations of wild olive growing in Hormozgan Province located in southern Iran by using 30 RAPDs and 10 ISSR markers. The mean value of polymorphism for RAPD loci was 73.71%, while the value for ISSR loci was 81.74%. The Keshar population had the highest value of intra-population polymorphism for both RAPD and ISSR loci (66.86 and 62.71%, respectively), while the Tudar population had the lowest values (20.35 and 28.81%, respectively). Similarly, the highest and lowest number of effective alleles, Shannon index and Nei's genetic diversity were also found for these two populations. The highest value of H(pop)/H(sp) within population genetic diversity for RAPD and ISSR loci was found for the Keshar population (H(pop) = 0.85 and H(sp) = 0.90). OPA04-750, OPA13-650 and OPA02-350 RAPD bands were specific for Tudar, Bondon and Keshar populations, respectively, while no specific ISSR bands were observed. Analysis of molecular variance as well as the pairwise F(ST) test showed significant differences for RAPD and ISSR markers among the populations. The NJ and UPGMA trees also separated the wild olive populations from each other, indicating their genetic distinctness. UPGMA clustering of the four wild olive populations placed the Tudar population far from the other populations; Keshar and Bokhoon population samples revealed more similarity and were grouped together. We conclude that there is high genetic diversity among O. europaea ssp cuspidata populations located in southern Iran. We also found RAPD and ISSR markers to be useful molecular tools to discriminate and evaluate genetic variations in wild olive trees.     

利用SCoT分析柳枝稷遗传资源的多样性

本研究利用SCoT标记对96份柳枝稷种质的亲缘关系和遗传变异进行了研究。筛选出20条引物对96份供试材料进行PCR扩增,共获得445条带,其中多态性条带402条,平均多态性条带比率(PPB)达90.31%,多态性信息含量(PIC)为0.166~0.410,平均值为0.332,标记指数(MI)为10.20。遗传相似系数(GS)为0.498~0.912,平均值为0.688。表明SCoT标记能够揭示柳枝稷种质间的遗传变异。通过UPGMA分析表明,96份种质资源聚为高地型和低地型两大类。经POPGENE1.32软件分析结果显示:96份柳枝稷基因多样性指数(H)为0.285,Shannon指数(I)为0.431,表明供试的种质间遗传多样性丰富,遗传多样性水平高。经AMOVA 1.55方差分析揭示:96份柳枝稷生态型内的遗传变异占总变异的72.85%,生态型间遗传变异占总变异的27.15%,结果表明ScoT可用于柳枝稷遗传多样性研究,该研究结果可为柳枝稷种质资源的进一步开发利用提供重要信息。     

Genetic variation,population structure and identification of yellow catfish, <Emphasis Type="Italic">Mystus nemurus</Emphasis> (C&;V) in Thailand using RAPD,ISSR and SCAR marker

Random amplified polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) markers were used to investigate the genetic structure of four subpopulations of Mystus nemurus in Thailand. The 7 RAPD and 7 ISSR primers were selected. Of 83 total RAPD fragments, 80 (96.39%) were polymorphic loci, and of 81 total ISSR fragments, 75 (92.59%) were polymorphic loci. Genetic variation and genetic differentiation obtained from RAPD fragments or ISSR fragments showed similar results. Percentage of polymorphic loci (%P), observed number of alleles, effective number of alleles, Nei’s gene diversity (H) and Shannon’s information index revealed moderate to high level of genetic variations within each M. nemurus subpopulation and overall population. High levels of genetic differentiations were received from pairwise unbiased genetic distance (D) and coefficient of differentiation. Mantel test between D or gene flow and geographical distance showed a low to moderate correlation. Analysis of molecular variance indicated that variations among subpopulations were higher than those within subpopulations. The UPGMA dendrograms, based on RAPD and ISSR, showing the genetic relationship among subpopulations are grouped into three clusters; Songkhla (SK) subpopulation was separated from the other subpopulations. The candidate species-specific and subpopulation-specific RAPD fragments were sequenced and used to design sequence-characterized amplified region primers which distinguished M. nemurus from other species and divided SK subpopulation from the other subpopulations. The markers used in this study should be useful for breeding programs and future aquacultural development of this species in Thailand.     

Identification of Bactrian camel cell lines using genetic markers

Iranian Bactrian camel population is less than 100 animals. Iranian biological resource center produced more than 50 Bactrian camel fibroblast cell lines as a somatic cell bank for conservation animal genetic resources. We compared two type markers performance, including 14 random amplified polymorphic DNA (RAPDs) (dominant) and eight microsatellite (co-dominant) for cell line identification, individual identification and investigation genetic structure of these samples. Based on clarity, polymorphism, and repeatability, four RAPD primers were selected for future analysis. Four RAPD primers and eight microsatellite markers have generated a total of 21 fragments and 45 alleles, respectively. RAPD primers revealed fragment size between 150 to 2000 bp and gene diversity since 0.27 (IBRD) to 0.46 (GC10), with an average of 0.37. Microsatellite markers generated number of alleles per locus ranged from 3 to 11, with an average of 5.62 alleles. The observed heterozygosity ranged from 0.359 (IBRC02) to 0.978 (YWLL08), and expected heterozygosity ranged from 0.449 (IBRC02) to 0.879 (YWLL08). Bottleneck analysis and curve showed that Bactrian camel population did not experience a low diversity. RAPD profiles were especially suitable for investigation population genetics. All primers generated novel and polymorphic fragments. Briefly, our results show that a multiplex PCR based on these markers can still be valuable and suitable for authentication of cell lines, investigating gene diversity and conservation genetic resources in Bactrian camel, while new technologies are continuously developed.     

扁蓿豆育成品系遗传多样性的RAPD研究

用 RAPD分子标记对4个扁蓿豆育成品系进行遗传多样性分析.结果表明:筛选的12条多态性RAPD引物共检测出126个等位基因位点,平均每条引物检测到10.5个位点,多态位点比率占94.4%.扁蓿豆品系的Nei's遗传多样性指数(H)为0.266 2,Shannon多样性指数(I)为0.414 5.Nei's指数估算和分子方差分析(AMOVA)均证实扁蓿豆品系的遗传多样性主要存在于品系内,品系间有一定的基因交流(基因流为2.756 7).聚类结果表明,品系00-61和00-81遗传差异相对较小,品系90-36与前两者之间的遗传差异较大,品系93-21与各品系的遗传差异最大.