中间锦鸡儿转录组EST-SSR标记系统性识别与引物筛选

旨在对中间锦鸡儿转录组数据库EST信息进行SSR系统性识别和初步验证,为进一步SSR分子标记开发提供依据。对Hi Seq2000测序技术获得的中间锦鸡儿转录组Unigenes进行SSR位点搜索,共获得45 706个SSR位点,出现频率为10.38%,平均4.30kb出现一个SSR位点。SSR重复类型以单核苷酸重复序列基元为主,所占比例为56.47%;二核苷酸、三核苷酸重复序列基元的数量所占比例分别是20.56%和21.04%;其他数量的基元所占比例仅为1.9%。多核苷酸重复类型中最多的为2核苷酸重复AG/CT;其次为3核苷酸重复AAG/CTT。针对EST-SSR位点随机挑选了150对引物,通过琼脂糖凝胶电泳进行PCR验证,其中有79对能获得扩增条带,21对引物扩增出单一条带,比例为14.0%。     

基于转录组数据的密花香薷SSR位点特征分析

利用MISA软件对密花香薷转录组42 362条Unigene进行SSR位点搜索,并对其SSR序列结构及分布特征进行了分析。结果表明:(1)密花香薷转录组Unigene序列中共检测到17 564个SSR重复序列,分布于11 903条Unigene上,出现频率为28.10%,平均每3 200 bp出现一个SSR位点。(2)单、二、三核苷酸重复类型为密花香薷转录组SSR位点的主导基序类型,占总SSR位点的97.27%,3种主导基序类型中,单核苷酸所形成基元类型数量最多,共检测到169个基元类型(51.22%),单核苷酸(A/T)n基元类型占明显优势,二核苷酸重复类型(AG/CT)n基元类型占优,分别占总SSR位点的50.60%和12.17%。(3)单核苷酸SSR位点所包含重复次数最多(49),重复次数介于10～66,同一基序类型不同重复次数所形成的SSR位点数量差异较大,随重复次数的增加,SSR位点数呈下降趋势。(4)密花香薷转录组二至六核苷酸基序SSR序列长度集中在12～30 bp区间,共包含有8 190个SSR位点,占所统计SSR位点的95.60%,1 589 (≥20 bp)个SSR序列具有极高的多态性,占所统计SSR位点的18.54%。综合出现频率、分布密度、基元重复次数和长度变异等多个研究结果发现,密花香薷转录组检索到的SSR序列表现出较高的多态性潜能,具有较大的开发价值。该研究为后续密花香薷SSR分子标记引物开发奠定了理论基础。     

基于Solexa高通量测序的唐古特红景天(Rhodiola algida)微卫星信息分析

利用所获得的Solexa高通量唐古特红景天转录组拼接EST序列进行微卫星位点的挖掘分析,期望为红景天属SSR标记的开发提供生物信息学依据。在得到的6552条EST序列中,三碱基最多,占总EST序列的41.50%;单核苷酸和二核苷酸重复类型的SSR含量相似,分别为27.76%和24.76%;二至六碱基微卫星分布密度与其对应的SSR含量成正比。在单核苷酸重复类型中,T和A重复类型最多,分别为总SSR的14.91%、12.70%,而G和C重复类型则很少;在二核苷酸重复类型中,AG重复类型最多,占总SSR的5.60%,GA和TC重复类型次之,分别为4.75%、4.72%;在三核苷酸重复类型中,GAA重复类型最多,为总SSR的1.85%,GAT次之,为1.79%,TTC、TCT、TCA、GGA、GCT、GAG重复类型间的SSR数相差不大;四、五、六核苷酸重复类型则很少。除五、六核苷酸重复类型外,其长度变化与其对应的重复类型碱基长度成反比;同种重复类型中,微卫星的长度与其对应的SSR数成反比。     

山地虎耳草转录组SSR信息分析

利用MISA（MicroSatellite）软件对山地虎耳草转录组拼接序列进行微卫星位点信息分析,为后期SSR标记的开发和物种遗传多样性检测提供候选序列。结果发现,在拼接得到的63 763条Unigene序列中含有4 622个SSR,发生频率为7.25%,有110种重复基元,平均每10.00 kB出现一个SSR位点。山地虎耳草转录组序列的SSR主要集中在三核苷酸重复（55.50%）,其次为二核苷酸重复（30.23%）。二核苷酸重复和三核苷酸重复中的优势重复基元分别为AG/TC和AAG/TTC。二核苷酸重复基元的重复次数类型最多,跨度最大,具有更高的多态性,三核苷酸次之,而四、五、六核苷酸重复类型很少。山地虎耳草转录组SSR以5~9次重复为主,且SSR数量随着重复次数的增加逐渐减少,基序长度主要集中于12~30 bp,多态性均在中等以上。     

甘薯与牵牛EST资源的SSR信息分析

为挖掘番薯（Ipomoea）属EST-SSR资源,从NCBI数据库下载23406条甘薯（Ipomoea batatas (L.) Lam.）EST和62282条牵牛（Ipomoea nil (L.) Roth）EST,利用生物信息学软件预处理、去冗余、拼接处理后得到12812条无冗余的甘薯EST（6.70 Mb）和28422条牵牛唯一序列（17.19 Mb）。对这些序列进行SSR搜索,在甘薯上获得328个SSR位点,发生频率为2.56%;牵牛上筛选到962个SSR位点,出现频率为3.38%。甘薯和牵牛EST-SSR具有多个共同特征：在SSR位点中,主要是二核苷酸重复类型,其次是三核苷酸重复;在二核苷酸重复中,出现最多的重复基序为AG/CT,其次是AT/AT;在三核苷酸重复中,主要基序是AAG/CCT;SSR位点的长度主要集中在20~22 bp。结果表明,这些搜索出的EST-SSR重复基序类型丰富、多态性潜能高,具有较高的开发和利用价值。     

陆地棉EST长度多态性与其SSR分布特征相关性分析

目的:分析陆地棉EST长度多态性与其SSR分布特征的相关性。方法:从NCBI公共数据库下载陆地棉EST序列,应用SSRIT搜索SSR,分析20 000条无冗余的EST序列。结果:在剔除低质量和冗余的序列后,得到全长为7 363.878kb的无冗余EST序列7 322条,其中含有SSR位点的EST序列数520条,占被分析EST比例的2.60%。长度在400bp以下的EST序列含SSR的比例为1.46%;长度在400bp以上的EST序列含SSR的比例为8.94%。在1～6bp的重复基元中,二核苷酸重复基元的SSR重复频率最高,占总数的63.46%,其次是三核苷酸,占总数的34.04%。二核苷酸类型(AG)n、(AT)n和三核苷酸类型(AAG)n、(ACC)n、(ACT)n、(AAT)n是SSR的主要重复基元。结论:棉花EST-SSR可用于棉花分子标记,为有针对性设计陆地棉EST-SSR引物奠定基础。     

基于高通量测序分析青藏高原特有植物蓝玉簪龙胆(Gentiana veitchiorum)的SSR和SNP特征

利用Illumina HiSeq ~(TM)2500平台对青海省库泽县的蓝玉簪龙胆(Gentiana veitchiorum)进行高通量测序,共得到SSR序列8 588条,对其SSR重复类型进行分析;三核苷酸重复类型所占的比例最大占54.7%(4696);其次是二核苷酸重复类型占41.3%(3543);四核苷酸重复类型,五核苷酸重复类型和六核苷酸重复类型所占的比例较少(共占4%)。在二核苷酸重复类型中AT/TA重复类型所占的比例最大分别为9.85%和9.5%。在微卫星中重复单元的长度大小和重复次数成负相关,并且微卫星的总长度与重复单元的长度成正相关。在蓝玉簪龙胆的花(GP-F)和叶(GP-L)中分别得到253 789和249 417个SNP位点,其中在非编码区上的比例为51.29%和51.96%。分析发现蓝玉簪龙胆SNP位点在编码区中同义转换所占的比例(48.63%和47.96%)要远远高于非同义转换的比例(0.08%和0.08%),可能与功能基因序列相对稳定有关。     

人参EST资源的SSR信息分析

从7055条人参EST序列中搜索出791个SSR,其出现频率为11．21％,平均长度为21．37bp,平均分布频率为1／5．7kb。二核苷酸重复是主要的重复类型,占全部EST-SSR的56．89％,其次是三核苷酸重复的占全部SSR的21．11％。AT、GAA是二核苷酸和三核苷酸中出现次数最多的重复基元类型,分别占28．89％和10．18％。     

鲫鱼(Carassius auratus)表达序列标签资源的SSR构成与分布分析

分析鲫鱼EST资源的SSR信息,为开发EST-SSR标记奠定基础.从GenBank中获得鲫鱼EST序列,然后用Sequencher 4.8软件进行序列拼接得到Uni-EST序列,再通过SciRoKo 3.4软件扫描Uni-EST序列中的SSR,最后得出EST-SSR的分布特征、频率和重复基元类型等特征.通过搜索共获得9 230条鲫鱼EST原始序列,通过使用计算机软件进行预处理共得到全长为3.81×106 bp的无冗余Uni-EST 7 092条.在这些序列中共搜索出597个SSR位点,分布在545条Uni-EST序列中,发生频率为8.13％,EST-SSR的平均长度为(19.34±6.23) bp,平均每Mb含156.55个SSR位点.单核苷酸重复在鲫鱼EST-SSR中占主导地位,发生频率为39.53％,其次为二核苷酸重复,发生频率为36.68％以及三核苷酸重复的15.41％.在所有非单核苷酸重复基元中,AC基元出现频率最高,其次为AG.设计出引物404对.最后得出结论鲫鱼EST中SSR出现的频率较高,并且类型较为丰富,为进行遗传多样性分析和重要经济性状筛选等方面的研究提供了基础和指导.     

三种人参属植物的EST-SSR信息分析及其在三七中的应用

为了解人参属植物EST中SSR分布特点及其在三七SSR标记中的应用,利用生物信息学方法,用primer 3软件对dbEST数据库中人参属植物人参、西洋参和三七的EST序列进行搜索,发现人参属植物EST-SSR出现频率为11.54%,平均每4.39 kb出现1个SSR.人参属植物单核苷酸重复基元占主导地位,其次为三核苷酸重复基元和二核苷酸重复基元,分别占总SSR的54.48%、17.31%和16.36%.人参属EST-SSR的优势类型为A/T和AT/TA,分别占54.73%和8.21%.根据人参属植物EST中的SSR设计48对引物,在合适的PCR扩增体系下,用5个三七样品的DNA为模板进行PCR扩增,引物有效扩增率85.42%,其中多态性引物占可扩增引物的70.73%.结果表明,利用人参属EST序列开发三七EST-SSR标记是可行的.     

基于枇杷转录组序列的SSR分子标记引物开发

为获得更多的枇杷SSR引物,对枇杷转录组测序得到的1 kb以上的11 798条Unigenes进行SSR位点搜索。结果在3515 条Unigenes（6.77%）中共获得4438个SSR位点,其中主要重复类型为双碱基重复和三碱基重复,二者占SSR总数的68.27%,而四、五、六碱基重复类型较少,仅占1.42%。对选出的SSR标记采用Primer3进行引物设计,得到7911 对SSR位点特异引物,可用于枇杷遗传多样性分析、分子标记辅助育种、育种群体的建立等研究。     

Distribution and characterization of simple sequence repeats in Gossypium raimondii genome

Simple sequence repeats (SSRs) can be derived from the complete genome sequence. These markers are important for gene mapping as well as marker-assisted selection (MAS). To develop SSRs for cotton gene mapping, we selected the complete genome sequence of Gossypium raimondii, which consisted of 4447 non-redundant scaffolds. Out of 775.2 Mb sequence examined, a total of 136,345 microsatellites were identified with a density of 5.69 kb per SSR in the G. raimondii genome leading to development of 112,177 primer pairs. The distributions of SSRs in the genome were non-random. Among the different motifs ranging from 1 to 6 bp, penta-nucleotide repeats were most abundant (30.5%), followed by tetra-nucleotide repeats (18.2%) and di-nucleotide repeats (16.9%). Among all identified 457 motif types, the most frequently occurring repeat motifs were poly-AT/TA, which accounted for 79.8% of the total di-nt SSRs, followed by AAAT/TTTA with 51.5% of the total tetra-nucleotede. Further, 18,834 microsatellites were detected from the protein-coding genes, and the frequency of gene containing SSRs was 46.0% in 40,976 genes of G. raimondii. These genome-based SSRs developed in the present study will lay the groundwork for developing large numbers of SSR markers for genetic mapping, gene discovery, genetic diversity analysis, and MAS breeding in cotton.     

Mapping microsatellite markers identified in porcine EST sequences

A sequence search of swine expressed sequence tags (EST) data in GenBank identified over 100 sequence files which contained a microsatellite repeat or simple sequence repeat (SSR). Most of these repeat motifs were dinucleotide (CA/GT) repeats; however, a number of tri-, tetra-, penta- and hexa-nucleotide repeats were also detected. An initial assessment of six dinucleotide and 14 higher-order repeat markers indicated that only dinucleotide markers yielded a sufficient number of informative markers (100% vs. 14% for dinucleotide and higher order repeats, respectively). Primers were designed for an additional 50 di- and one tri-nucleotide SSRs. Overall, 42 markers were polymorphic in the US Meat Animal Research Center (MARC) reference population, 17 markers were uninformative and 12 primer pairs failed to satisfactorily amplify genomic DNA. A comparison of di-nucleotide repeat vs. markers with repeat motifs of three to six bases demonstrated that 72% of dinucleotide markers were informative relative to only 7% of other repeat motifs. The difference was the result of a much higher percentage of monomorphic markers in the three to six base repeat motif markers than in the dinucleotide markers (64% vs. 14%). Either higher order repeat motifs are less polymorphic in the porcine genome or our selection criteria for repeat length of more than 17 contiguous bases was too low. The mapped microsatellite markers add to the porcine genetic map and provide valuable links between the porcine and human genome.     

Identification of microsatellites in cattle unigenes

To identify EST-SSR molecular markers, 41,986 cattle UniGene sequences from NCBI were mined for analyzing SSRs. A total of 1,831 SSRs were identified from 1,666 ESTs, which represented an average density of 19.88 kb per SSR. The frequency of EST-SSRs was 4.0%. The dinucleotide repeat motif was the most abundant SSR, accounting for 54%, followed by 22%, 13%, 7% and 4%, respec-tively, for tri-, hexa-, penta- and tetra-nucleotide repeats. Depending upon the length of the repeat unit, the length of microsatellites varied from 14 to 86 bp. Among the di- and tri-nucleotide repeats, AC/TG (57%) and AGC (12%) were the most abundant type. Annotation of EST-SSRs was also carried out. Three hundred primer pairs were randomly designed using Prime Premier 5.0 program and Oligo 5.0 for further experimental validation.     

Isolation of new microsatellite-containing sequences in<Emphasis Type="Italic">Acanthopanax senticosus</Emphasis>

Microsatellite markers, also called simple sequence repeats (SSRs), are comprised of a 2-to 6-nucIeotide repeat motif. They are useful as molecular markers for genetic authentication, crop breeding programs, and linkage analysis for map-based cloning. From a microsatellite-enriched genomic library ofAcanthopanax senticosus, we identified 239 new microsatellite-containing sequences. The di-nucleotide repeat units were the most abundant (55.2%), followed by tri-nucleotide repeat units (24.6%). In detailed repeat structures, the (AG)_n motif was most frequent (30.5%), followed by the (AC)_n motif (21.7%). Heptaand octa-nucleotide repeat motifs were found in each single locus, and a total of 33 (13.8%) complex repeat structures were recorded. This is the first report of mass isolation of microsatellites via screening of anA. senticosus library, and may well provide information useful as a genetic resource for the further study ofA. senticosus.     

商城肥鲵二碱基重复和四碱基重复微卫星DNA的结构特征及对筛选效率的影响

两栖类有尾目物种的微卫星分离中的筛选成功率常常较低。为探索微卫星结构对筛选效率的影响,本研究通过AFLP快速分离法(fast isolation by AFLP of sequences containing repeats,FIASCO)对商城肥鲵(Pachyhynobius shangchengensis)二碱基重复类型和四碱基重复类型微卫星进行分离,并对微卫星序列进行了分析。研究中发现二碱基微卫星位点多以微卫星DNA家族形式存在,并因此导致了微卫星位点分离较低的筛选率;在四碱基重复的微卫星位点中未发现微卫星DNA家族的存在。对研究中得到的3个微卫星DNA家族的分析发现,同一家族的上、下游侧翼序列变异程度存在差异;毗邻微卫星重复单元区的侧翼序列碱基变异程度较高,而较远处的区段则相对保守。这些结构特征可能反映出微卫星DNA家族在演化中的复杂性。本文的研究结果提示在两栖动物的一些类群中,微卫星的筛选必须考虑微卫星DNA家族的影响,选取适宜的碱基重复类型将是决定筛选效率的关键。     

Genetic Diversity of Buckwheat Cultivars (<Emphasis Type="Italic">Fagopyrum tartaricum</Emphasis> Gaertn.) Assessed with SSR Markers Developed from Genome Survey Sequences

Tartary buckwheat is an important edible crop as well as medicinal plant in China. More and more research is being focused on this minor grain crop because of its medicinal functions, but there is a paucity of molecular markers for tartary buckwheat due to the lack of genomics. In this study, a genome survey was carried out in tartary buckwheat, from which SSR markers were developed for analysis of genetic diversity. The survey generated 21.9 Gb raw sequence reads which were assembled into 348.34 Mb genome sequences included 204,340 contigs. The genome size was estimated to be about 497 Mb based on K-mer analysis. In total, 24,505 SSR motifs were identified and characterised from this genomic survey sequence. Most of the SSR motifs were di-nucleotide (67.14 %) and tri-nucleotide (26.05 %) repeats. AT/AT repeat motifs were the most abundant, accounting for 78.60 % of di-nucleotide repeat motifs. SSR fingerprinting of 64 accessions yielded 49.71 effective allele loci from a total of 63 with the 23 polymorphic SSR primer combinations. Analyses of the population genetic structure using SSR data strongly suggested that the 64 accessions of tartary buckwheat clustered into two separate subgroups. One group was mainly distributed in Nepal, Bhutan and the Yunnan-Guizhou Plateau regions of China; the other group was mainly derived from the Loess Plateau regions, Hunan and Hubei of China and USA. The cluster analysis of these accession’s genetic similarity coefficient by UPMGA methods strongly supported the two subgroup interpretation. However accessions from Qinghai of China could be grouped into either of the two subgroups depending on which classification method was used. This region is at the intersection of the two geographical regions associated with the two subgroups. These results and information could be used to identify and utilize germplasm resources for improving tartary buckwheat breeding.