甘蔗属不同种及优良甘蔗栽培品种的SSR标记遗传多样性分析

应用21对SSR引物与毛细管电泳技术,分析了52个甘蔗属品种的遗传多样性。共检测出327个SSR标记,平均每对引物检测15.6个。选择141个共显性标记构建SSR标记指纹图谱数据库,利用DNAMAN软件与UPGMA统计方法分析参试材料遗传多样性。DNAMAN软件同源分析显示,新台糖16号与台优1号之间的同源性最高(87%),品种之间最小的同源性为55%;利用UPGMA统计方法可把参试材料分成4个遗传相似性较高的类群。结果表明,SSR标记与毛细管技术的结合,可构建甘蔗种质资源SSR标记指纹图谱、分析甘蔗种质资源遗传多样性。聚类分析显示参试甘蔗材料的遗传基础相近,为了提高甘蔗选育种效率,应拓宽甘蔗选育种亲本的遗传基础,提高杂交栽培品种的抗虫、抗病等特性。     

应用红外荧光和加尾引物法进行向日葵SSR遗传分析中的多聚PCR和多聚凝胶电泳的优化

在向日葵(Helianthus annuus L.)自交系SSR遗传分析中,为了提高SSR荧光分析效率、简化分析程序和降低研究费用,我们进行了多聚PCR和多聚凝胶电泳两项技术的优化研究.结果表明,优化多聚PCR和多聚凝胶电泳的影响因子(如逐步降低的退火温度的循环数、各个多聚位点引物浓度的平衡、PCR缓冲液浓度以及Taq DNA多聚酶的浓度等)可以收到更好的实验效果.基于以上的优化研究,系统地提出了一套优化的加尾引物法的策略.同时,提出了在多聚PCR和多聚凝胶电泳中常常遇到的技术难题的有效防止和解决的方法.     

叶绿体S S R标记:柑橘体细胞杂种胞质遗传分析的一种新方法

从水稻(Oryza sativa L.)、烟草(Nicotiana tabacum L.)和黑松(Pinus thunbergiiParl.)等植物的22对叶绿体SSR引物中筛选出 5对能用于柑橘叶绿体SSR分析的引物,应用这5对引物对9个组合的柑橘体细胞杂种的叶绿体遗传进行了分析.结果表明:这些组合再生的杂种中叶绿体都呈现随机分离,该现象与以前报道的RFLP分析结果一致,而且其可靠性已被CAPS分析所证实.表明柑橘叶绿体SSR同RFLP及CAPS一样可靠,并且更简单高效、易于操作,特别适合对柑橘等植物体细胞杂种进行早期胞质遗传组成分析.     

基于SSR标记的百合资源遗传背景分析

为研究百合(Lilium spp.)种质资源的遗传背景,精准评价和筛选优异种质用于百合的遗传改良,本研究采用简单序列重复(simple sequence repeat, SSR)分子标记技术对来自我国11个省份的62份百合种质资源进行了遗传背景分析。结果表明,83对百合SSR引物中有15对引物具有多态性,共扩增出157个等位基因位点,每个位点的等位基因数为5-19个,平均每个位点有效等位基因数(number of effective alleles, Ne)为4.162 8,平均观测杂合度(observed heterozygosity, Ho)和平均期望杂合度(expected heterozygosity, He)分别为0.228 2和0.694 1,平均多态性信息含量(polymorphism information content, PIC)为0.678 8,平均Nei’s多样性指数(Nei’s diversity index, H)和平均Shannon信息指数(Shannon’s information index, I)分别为0.694 1和1.594 9,说明供试百合种质遗传多样性丰富。利用非加权配对算术平均法(unweighted pair group method with arithmetic mean, UPGMA)进行聚类分析,可将62份种质分为5大类,主成分分析将材料分为3个类群,结合两种分析发现各类群存在一定地理相关性,绝大数来源相同的百合种质可聚为一类。群体结构分析将百合群体划分为4个类群和1个混合类群。上述研究结果为百合种质资源的精准鉴定和育种利用提供了一定的理论依据和基因资源。     

毛细管电泳四色荧光检测法分析茶树SSR标记

将毛细管电泳四色荧光栓测技术应用于茶树SSR标记分析.该方法采用三引物PCR扩增SSR位点,三引物即在5'端加有M13尾巴序列(5'-CACGACGTTGTAAAACGAC-3')的特异正向引物、特异反向引物及带有荧光标记的通用型M13引物:为了运用四色荧光检测系统使通过一次毛细管电泳能同时检测3个以上的SSR位点,采用蓝、绿、黑3种不同颜色的荧光染料分别对3个M13引物进行标记. 应用该方法对42个茶树品种(系)的16个SSR位点进行遗传分析的结果表明:此法具有简便、可靠、低成本及高通量的优点;且随着所分析SSR位点数的增加,降低成本的效果更加显著.采用建立的方法,还筛选获得了11个多态性丰富的可应用于茶树遗传研究的SSR标记.     

叶绿体SSR标记：柑橘体细胞杂种胞质遗传分析的一种新方法

从水稻(Oryza sativa L．)、烟草(Nicotiana tabacum L．)和黑松(Pinus thunbergii Parl．)等植物的22对叶绿体SSR引物中筛选出5对能用于柑橘叶绿体SSR分析的引物,应用这5对引物对9个组合的柑橘体细胞杂种的叶绿体遗传进行了分析。结果表明：这些组合再生的杂种中叶绿体都呈现随机分离,该现象与以前报道的RFLP分析结果一致,而且其可靠性已被CAPS分析所证实。表明柑橘叶绿体SSR同RFLP及CAPS一样可靠,并且更简单高效、易于操作,特别适合对柑橘等植物体细胞杂种进行早期胞质遗传组成分析。     

基于PCR的SSR标记分离方法综述

SSR分子标记是目前应用最广泛的第二代共显性分子遗传标记。SSR标记具有物种特异性,要应用该方法需要提前开发相应物种的特异SSR标记,而获得微卫星标记的经典方法是通过构建基因组片段文库和特殊标记SSR探针杂交法获取,这些方法经济成本相对较高且耗时耗力。近年来,该领域的研究中积累了很多研究成果和技术改进,发展起来几种基于PCR简便易操作且节约成本的SSR标记分离方法,例如基于RAPD的微卫星分离方法、基于ISSR抑制PCR扩增法、序列标签微卫星分析法、选择性扩增微卫星分析法以及荧光ISSR-PCR分离微卫星和微卫星扩增文库法等。本文主要对这些方法逐一进行综述,旨在为各个物种SSR标记的开发提供参考。     

毛细管电泳-短小串联重复序列多态性方法及对人凝血因子BSTR位点的检测

为开展高效毛细管电泳技术对STR位点的检测 ,通过建立毛细管电泳 短小串联重复序列 (STRs)多态性的检测方法 ,实现了利用毛细管电泳快速检测人凝血因子B (F13B)STR位点PCR产物的长度多态性 ,结果F13B STR基因型分型正确 ,图谱清晰 .方法的建立可简化常规多态性检测 ,实现快速、准确分离     

植物EST-SSR标记开发及其应用

随着生物科技的进步,大量的植物表达序列标签(expressed sequence tags,ESTs)已经成为开发SSR标记的重要资源。EST-SSR作为一种新型分子标记,其多态性可能与基因功能直接相关,而且在相近植物间具有良好通用性,使得EST-SSR标记在实际应用中更具价值。采用计算机方法大规模发掘EST-SSR多态性位点极大地提高了SSR标记开发效率。尤其随着新一代测序技术的成熟以及测序成本的急剧下降,利用新一代测序技术产生大量的转录组数据进行EST-SSR多态性标记的计算机大规模发掘将对SSR标记的开发带来深远影响。本文简要介绍了植物EST-SSR分布特点,并对EST-SSR标记开发现状以及相关应用作了综合评述,此外,还对EST-SSR标记的计算机开发新策略进行了展望。     

毛细管电泳-短小串联重复序列多态性方法及对人凝血因子ⅧB STR位点的检测

为开展高效毛细管电泳技术对STR位点的检测,通过建立毛细管电泳-短小串联重复序列(STRs)多态性的检测方法,实现了利用毛细管电泳快速检测人凝血因子B(F13B)STR位点PCR产物的长度多态性,结果F13B-STR基因型分型正确,图谱清晰.方法的建立可简化常规多态性检测,实现快速、准确分离.     

ESMP: A high-throughput computational pipeline for mining SSR markers from ESTs

With the advent of high-throughput sequencing technology, sequences from many genomes are being deposited to public databases at a brisk rate. Open access to large amount of expressed sequence tag (EST) data in the public databases has provided a powerful platform for simple sequence repeat (SSR) development in species where sequence information is not available. SSRs are markers of choice for their high reproducibility, abundant polymorphism and high inter-specific transferability. The mining of SSRs from ESTs requires different high-throughput computational tools that need to be executed individually which are computationally intensive and time consuming. To reduce the time lag and to streamline the cumbersome process of SSR mining from ESTs, we have developed a user-friendly, web-based EST-SSR pipeline EST-SSR-MARKER PIPELINE (ESMP). This pipeline integrates EST pre-processing, clustering, assembly and subsequently mining of SSRs from assembled EST sequences. The mining of SSRs from ESTs provides valuable information on the abundance of SSRs in ESTs and will facilitate the development of markers for genetic analysis and related applications such as marker-assisted breeding. AVAILABILITY: The database is available for free at http://bioinfo.aau.ac.in/ESMP.     

Assessment of genetic diversity in broomcorn millet （Panicum miliaceum L.） using SSR markers

The genetic diversity of 118 accessions of broomcom millet （Panicum miliaceum L.）, collected from various ecological areas, was analyzed. Using 46 SSR （Simple Sequence Repeat） polymorphic markers from rice, wheat, oat and barley, a total of 226 alleles were found, which exhibited moderate level of diversity. The number of alleles per primer ranged from two to nine, with an average of 4.91. The range of polymorphism information content （PIC） was 0.2844）.980 （average, 0.793）. The expected heterozygosity （He） varied from 0.346 to 0.989, with an average of 0.834. The average coefficient of the genetic similarity of SSR markers among the 118 accessions was 0.609, and it ranged from 0.461 to 0.851. The UPGMA （Unweight Pair Group Method with Arithmetic Mean） clustering analysis at the genetic similarity value of 0.609 grouped the 118 accessions into five groups. Mantel test meant that geographical origin and genetic distance presented positive correlation. The clustering results were consistent with known information on ecological growing areas. The genetic similarity coefficient of the accessions in the Loess Plateau ecotype was significantly lower than those in the other ecotypes. It indicates that the highest level of genetic diversity occurred in the Loess Plateau, which is probably the original site of Panicum miliaceum.     

Transferable EST-SSR markers for the study of polymorphism and genetic diversity in bread wheat

Nearly 900 SSRs (simple sequence repeats) were identified among 15,000 ESTs (expressed sequence tags) belonging to bread wheat ( Triticum aestivum L.). The SSRs were defined by their minimum length, which ranged from 14 to 21 bp. The maximum length ranged from 24 to 87 bp depending upon the length of the repeat unit itself (1–7 bp). The average density of SSRs was one SSR per 9.2 kb of EST sequence screened. The trinucleotide repeats were the most abundant SSRs detected. As a representative sample, 78 primer pairs were designed, which were also used to screen the dbEST entries for Hordeum vulgare and Triticum tauschii (donor of the D-genome of cultivated wheat) using a cut-off E (expectation) value of 0.01. On the basis of in silico analysis, up to 55.12% of the primer pairs exhibited transferability from Triticum to Hordeum, indicating that the sequences flanking the SSRs are not only conserved within a single genus but also between related genera in Poaceae. Primer pairs for the 78 SSRs were synthesized and used successfully for the study of (1) their transferability to 18 related wild species and five cereal species (barley, oat, rye, rice and maize); and (2) polymorphism between the parents of four mapping populations available with us. A subset of 20 EST-SSR primers was also used to assess genetic diversity in a collection of 52 elite exotic wheat genotypes. This was done with a view to compare their utility relative to other molecular markers (gSSRs, AFLPs, and SAMPL) previously used by us for the same purpose with the same set of 52 bread wheat genotypes. Although only a low level of polymorphism was detected, relative to that observed with genomic SSRs, the study suggested that EST-SSRs can be successfully used for a variety of purposes, and may actually prove superior to SSR markers extracted from genomic libraries for diversity estimation and transferability.Communicated by R. Hagemann     

SSR - PCR反应体系建立与优化的研究概述

SSR标记是基于PCR基础上的一种分子标记,其扩增效果直接影响到SSR分析,近年来从不同方面对SSR - PCR反应体系的建立与优化进行了大量的研究.该文简要介绍SSR - PCR扩增反应体系建立的方法,综述SSR - PCR扩增反应的应用及其近展,并对存在的问题进行探讨,对今后的发展进行展望,以期为从事该方面的研究奠定基础.     

Mining of SSR markers from Expressed Sequence Tags of bamboo species

With the ever increasing number of Expressed Sequence Tags (ESTs) from various sequencing projects, ESTs have become valuable and first-hand source of in-silico mining of simple sequence repeats (SSR) markers. We examined a total of 3419 EST sequences from three bamboo species, namely, Phyllostachys edulis, Bambusa oldhamii and Dendrocalamus sinicus for the presence of di- to hexa- microsatellites. The frequency of SSR containing ESTs varied from 5.36% in B. oldhamii to 13.05% in P. edulis. No SSRs were found in D. sinicus. Tri-nucleotide repeats (49.34%) were most frequent in P. edulis, while not much comparable difference in repeats was found in B. oldhamii. Flanking primer pairs were also designed in-silico for the sequences containing SSRs and their position on the genome hypothesized using similarity searching. SSRs located in open reading frame (ORF) were given functional annotation using Gene Ontology. Polymorphic SSRs were also detected using new pipeline- polySSR. Polymorphism level was very low (2.43%) and the position of the polymorphic SSRs was determined. The development of SSRs and the study of polymorphism will help in the further study of intra- and inter- gene flow, genetic structure, variability, linkage mapping and evolutionary relationships in bamboo.     

Assessment of genetic diversity among okra genotypes using SSR markers

Okra (Abelmoschus esculentus) is an important nutritious vegetable. Despite its high economic and industrial value, very little attention has been paid to assess genetic diversity of okra at molecular level. For effective conservation and proper deployment of germplasm, a study on diversity analysis of okra germplasm was conducted with DNA markers. Microsatellite/Simple sequence repeat (SSR) markers were utilized to evaluate the genetic diversity among 96 accessions of Abelmoschus, of which 92 accessions were of A. esculentus and one accession each of A. tuberculatus, A. moschatus, A. moschatus subspecies tuberosus and A. manihot. A set of 40 SSR primers were tested, of which 30 primers gave reproducible amplification which were used further for diversity analysis. With a mean of 7.1 bands per SSR, DNA amplification with 30 SSRs generated a total 213 bands, of which 60.66 % were recorded polymorphic. Polymorphic information content ranged between 0.11 and 0.80 with an average of 0.52, indicating that the majority of primers were informative. The Jaccard’s coefficient ranged from 0.107 to 0.969. The UPGMA analysis grouped Abelmoschus genotypes into three main clusters at a cut-off of 0.20. Results of present study revealed that sufficient variation exists among the studied accessions and GAO-5 which was found highly diverse can be exploited for okra improvement. The outcome of present research would assist to make use of Ablemoschus germplasm for okra breeding.     

Analysis of molecular genetic diversity and population structure in Amaranthus germplasm using SSR markers

We assessed the molecular genetic diversity and population structure of Amaranthus species accessions using 11 simple sequence repeat markers. A total of 122 alleles were detected, and the number of alleles per marker (N_A) ranged from 6 to 21 with an average of 11.1 alleles. The frequency of major alleles per locus ranged from 0.148 to 0.695, with an average value of 0.496 per marker. The overall polymorphic information content values were 0.436–0.898, with an average value of 0.657. The observed heterozygosity (H_O) and expected heterozygosity (H_E) ranged from 0.056 to 0.876 and from 0.480 to 0.907, with average values of 0.287 and 0.698, respectively. The average H_O (0.240) was lower than the H_E and gene flow (Nm), and showed substantial genetic variability among all populations of amaranth accessions. The sample groupings did not strictly follow the geographic affiliations of the accessions. A similar pattern was obtained using model-based structure analysis without grouping by species type. Knowledge of the genetic diversity and population structure of amaranth can be used to select representative genotypes and manage Amaranthus germplasm breeding programs.     

Use of nanomaterials in capillary and microchip electrophoresis

This review gives an overview of different separation strategies with nanomaterials and their use in capillary electrophoresis (CE) and capillary electrochromatography, as well as in microchip electrophoresis, including metal and metal oxide nanoparticles, carbon nanotubes, fullerene and polymer nanoparticles, as well as silica nanoparticles. The paper highlights the new developments and innovative applications of nanoparticles as pseudostationary phases or immobilized on the capillary surface for CE separation. The separation and characterization of target nanoparticles with different sizes by CE are reviewed likewise.     

Identification and genetic relationships among nine Albizzia species based on morphological and molecular markers

Abstract

Identifying germplasm is an important component for efficient and effective management of plant genetic resources. This investigation was undertaken for the identification and analysis of genetic variation within 9 species of Albizzia through 33 morphological parameters, and 15 Random Amplified Polymorphic DNA (RAPD) and 17 Inter Simple Sequence Repeat (ISSR) primers. The use of selected RAPD and ISSR primers generated a total of 163 and 201 amplified DNA fragments, respectively. High frequencies of polymorphism, 95.05% for RAPD and 96.02% for ISSR, were detected. Statistical approaches were employed to construct genetic relationships by RAPD, ISSR and morphological analysis. Cluster analysis by the unweighted pair-group method (UPGMA) of Nei's similarity generated dendograms with similar topology that gave a better reflection of the diversity and affinities between species. These molecular results were comparable to main morphological characteristics. The correlation matrices generated by RAPD and ISSR markers were highly correlated (r = 0.843 at p = 1.0), thereby indicating congruence between these two marker systems. Both morphometric data and molecular markers have the potential to analyse genetic variation among the nine species of Albizzia, thus providing a major input for management strategy of plant genetic resources.     

Cloning of AFLP markers detected by fluorescence capillary electrophoresis

The available methods to isolate specific amplified fragment length polymorphism (AFLP) markers can be used only if markers are detected by radioactive labeling, silver staining, or ethidium bromide staining; these methods are useless if modern and automated genetic analyzers are used to detect AFLP markers by fluorescent labeling. We have developed a method that allows for isolation and cloning of specific AFLP markers obtained with a laser-induced fluorescence capillary electrophoresis system. This procedure has been tested on 5Arabidopsis thaliana polymorphic AFLP markers, and the nucleotide sequences obtained from these cloned markers were identified and located in theArabidopsis genome.