普通小麦SSR和EST-SSR引物对冰草通用性的比较分析

选用定位于普通小麦7个部分同源群的534对SSR引物和351对EST-SSR引物分别对普通小麦品种‘Fukuho’和四倍体冰草‘Z559’的基因组DNA进行扩增,结果显示:有475对(89.0%)SSR引物和314对(89.5%)EST-SSR引物对‘Fukuho’能有效扩增,226对(42.3%)SSR和258对(73.5%)EST-SSR引物对‘Z559’能有效扩增,表明小麦EST-SSR对冰草的通用性明显高于SSR;扩增强带比率SSR和EST-SSR引物分别为76.1%、84.1%,说明小麦EST-SSR在冰草上扩增带的质量亦优于SSR。选择上述在‘Fukuho’和‘Z559’基因组DNA之间有多态性扩增且带谱清晰的SSR和EST-SSR引物各60对,对‘Fukuho’、‘中国春’、‘北京8号’和二、四、六倍体冰草‘Z804’、‘Z559’、‘Z1075’的基因组DNA再行PCR扩增,结果显示,40对(66.7%)SSR和22对(36.7%)EST-SSR引物在‘Fukuho’、‘中国春’和‘北京8号’间扩增产物表现多态性,且前者高于后者;50对(83.3%)SSR和52对(86.7%)EST-SSR引物在冰草‘Z804’、‘Z559’和‘Z1075’间扩增产物表现多态性,两者相当。通用性、多态性和扩增强带比率综合比较表明,普通小麦EST-SSR和SSR经筛选虽都能转用于冰草,但两者相比EST-SSR更优。     

利用SSR标记分析云南、西藏和新疆小麦的遗传多样性

用185对SSR引物对52份中国西部特有小麦的遗传多样性进行了研究分析。在31份云南小麦材料中,共检测到488个等位变异,每一个SSR引物可检测到1至9个等位变异,平均为2.64个;平均PIC值为0.2764。在15份西藏小麦材料中,共检测到472个等位变异,每个引物可扩增出1到8个等位变异,平均为2.55个;平均PIC值为0.3082。在6份新疆小麦材料中,共检测到308个等位变异,每一个SSR引物可检测1到5个等位变异,平均为1.66个;平均PIC值为0.1944。185对SSR引物在云南、西藏和新疆小麦的21条染色体、7个部分同源群和3个染色体组上检测到的等位位点的多态性存在明显差异。云南、西藏和新疆小麦均以3B染色体较高,而1D染色体最低;在7个部分同源群中,均以第三部分同源群最高,第六部分同源群最低;在A、B和D染色体组上,均以B染色体组最高,D染色体组最低,A染色体组居中。利用185对SSR引物计算了云南、西藏和新疆小麦群体内及其群体间的遗传距离(GD)和平均遗传距离,结果显示,西藏小麦和云南小麦群体内的平均遗传距离要高于新疆小麦,而云南小麦和西藏小麦间的平均遗传距离低于两者与新疆小麦的平均遗传距离。聚类分析结果也表明,云南小麦和西藏小麦的亲缘关系较近,但两者与新疆小麦的亲缘关系相对较远。     

普通小麦-纤毛鹅观草染色体异附加系的分子标记鉴定

随机选取定位于小麦和大麦7个部分同源群上的135对EST、27对STS和253对SSR引物对24个可能的普通小麦-纤毛鹅观草二体异附加系的基因组DNA进行扩增。结果表明, 55对引物在亲本普通小麦中国春、Inayama Komugi、纤毛鹅观草和Inayama Komugi-纤毛鹅观草双二倍体间有多态性扩增, 其中31对引物可以在异附加系中扩增到纤毛鹅观草特异条带。根据PCR扩增结果, 异附加系07K02、07K06、07K39、07K201、07K202、07K255和07K256所添加的纤毛鹅观草染色体归属小麦第1部分同源群; 07K07、07K08、07K09、07K11、07K14和07K17所添加的纤毛鹅观草染色体归属小麦第2部分同源群; 07K15、07K16、07K21和07K47所添加的纤毛鹅观草染色体归属小麦第6部分同源群。     

玉米SSR引物在芒属植物遗传多样性分析的应用研究

目的:本文为了探索芒属植物的遗传多样性,方法:运用SSR分子标记的方法,用30对玉米SSR引物对15份中国湖南省的野生芒属材料进行扩增.结果:结果表明:30对引物共扩增出159条带,其中多态性条带121个,占76.10%.平均Nei's基因多样度为0.1992,平均Shannon信息指数为0.3139.UPGMA聚类分析显示,15份材料在遗传相似系数(GS)为0.75水平上,聚成三大类.第一大类由芒组成,第二大类由五节芒组成,第三大类由南获组成.这与形态学上的分类吻合.结论:玉米的SSR引物对于芒属植物遗传多样性分析仍具有很好的可行性.     

柱状田头菇EST-SSR的开发及应用研究

借鉴香菇EST序列设计的40对引物对柱状田头菇进行了EST-SSR引物通用性研究。结果显示,挑选的28对引物中多态性好且稳定的有13对,通用率达46.4%。PCR扩增产物获得具有多态性条带81条,每对引物扩增条带的数目范围为2–14,平均5.86条,扩增片段大小在100–400bp之间。多态信息含量（PIC）在0.3750–0.8032,平均0.7084。研究结果表明,EST-SSR分子标记在食用菌的遗传多样性和比较基因组学研究中起到重要的作用。     

基于转录组数据的桔小实蝇微卫星位点信息分析

以桔小实蝇为材料,从其转录组数据库中筛选功能微卫星(EST-SSR)序列,并进行SSR位点的信息分析.共获得1890个EST-SSR位点,可用于引物设计的SSR数为1296个.EST-SSR平均分布频率为1/10.21 kb,但这种分布频率在不同重复类型SSR之间相差很大.其中,三碱基重复SSR在该种昆虫的EST-SSR中出现的频率最高,结合其他文献推断三碱基重复可能是所有昆虫EST-SSR的优势类型.本文共设计了42对桔小实蝇EST-SSR引物,其中有18对引物可以扩增得到预期大小的条带.最后,探讨了基于转录组数据发掘昆虫SSR的前景和挑战,以及进行转录组EST-SSR筛选时应注意的问题.
     

基于苹果基因组开发梨的多态性SSR引物

从NCBI网站获取‘金冠’苹果基因组数据,在每条染色体上随机设计4对共68对引物。利用梨品种‘黄冠’和‘莱阳茌梨’及其F1代杂交群体(共94个单株)对这些引物的应用性进行验证,同时分析了该群体遗传多样性。(1)引物扩增结果显示,有40对引物可以扩增出预期目的条带,占设计引物数量的58.82%,其中16对引物能够扩增出多态性条带。(2)群体遗传多样性分析结果显示,有16对多态性引物扩增产物的等位基因数平均为2.312 5,有效等位基因数平均为2.001 4,平均杂合度观测值、期望杂合度和香农指数分别为0.548 3、0.490 5和0.746 2,表明可以在梨上运用。研究证明,SSR位点在苹果与梨之间可以转移应用。     

菠菜性别相关 EST-SSR 标记的开发及应用

为了明确菠菜EST序列中SSR的总体特点,开发菠菜EST-SSR引物;为利用EST-SSR引物进行菠菜性别相关特异序列的克隆奠定基础,本文从NCBI上获得1093条EST,利用在线软件SSRIT检测所含SSR序列,并进行分析。共检索出68条SSR序列,分布于64条EST中,检出率为6.22%,包括22种重复基元。其中二核苷酸重复基元的EST-SSR占主导地位,占总SSR数目的32.3%。利用在线引物设计软件Primer3.0设计了7对EST-SSR引物,在适合的PCR反应体系下,分别以雌、雄菠菜DNA基因组为模板,对设计的EST-SSR引物进行筛选,结果显示以EST序列HS097148设计的一对引物从菠菜雌雄基因组中扩增出一条雄性特异的条带,表明通过菠菜EST-SSR引物获得菠菜性别相关特异序列是可行的。     

405份CIMMYT引进小麦种质的遗传多样性分析

为了明确国际玉米改良中心(CIMMYT)引进普通小麦种质材料的遗传多样性特点,为其利用提供参考依据,本研究从均匀分布于小麦基因组的420对SSR引物中选择出条带清晰、多态性较好的62对引物对引自CIMMYT的405份普通小麦种质系进行遗传多样性检测。结果表明,62对SSR引物在405份CIMMYT材料中共检测到198个等位变异,每对引物检测到等位变异的数目为2~8个,平均每对SSR引物能够检测到3.19个等位变异。单个SSR引物的PIC值介于0.03~0.79之间,平均值0.48。405份CIMMYT材料A、B、D基因组之间多态性位点数和等位变异数相差不大,PIC平均值B基因组(0.53)A基因组(0.52)D基因组(0.39)。聚类分析结果显示,62对SSR引物能够将405份CIMMYT材料区分开来,在0.1285遗传距离处将供试材料分为24个类群,类型较为丰富,不同类群的材料在农艺性状和品质性状上存在差异。     

龙眼顶芽转录组简单重复序列(SSR)标记信息分析及分子标记开发

随着新一代测序技术的发展,大量的转录组数据和表达序列标签(EST)成为开发简单重复序列(SSR)标记的可利用资源。本研究利用MISA软件筛选龙眼(Dimocarpus longan)顶芽转录组数据库序列,从114 445条龙眼转录组unigene序列中发现11 546个SSR位点,SSR出现频率为10.09%。其中1 975条unigene含有两个或两个以上EST-SSR位点,占所有SSR位点的比例为17.10%,SSR出现的平均距离为7.52 kb。从龙眼转录组SSR核苷酸基序类型来看,二核苷酸(52.11%)和三核苷酸(46.15%)出现频率最高,占所有核苷酸出现频率的99.26%。在龙眼转录组SSR中二核苷酸重复基元出现频率最高的是AG/CT(4 250个,占36.81%),三核苷酸重复基元出现频率最高的是AAG/CTT(1 109个,占9.61%)。对含SSR位点的9 571条unigene序列进行引物设计,共设计出了8 347对SSR位点特异引物。随机挑选合成50对EST-SSR引物,以‘石硖’、‘储良’、‘古山2号’、‘立冬本’等四份龙眼材料的基因组DNA为模板对这批引物进行PCR扩增、筛选,结果表明,其中21对引物能产生理想的PCR产物,有效扩增率为42%;16对引物扩增条带具有多态性,占有效引物的76.2%;16对多态性引物共扩增获得50个条带,其中多态性片段21个,每对引物平均产生1.31个多态性片段。     

燕麦EST-SSR标记的开发和利用

为拓展分子标记在燕麦种质资源分析与鉴定中的应用,利用公共数据库中的25376条EST(expressed sequence tags)序列,开展了燕麦EST-SSR功能性标记的开发和利用研究。25376条EST序列经拼接去冗余后获得了11618条序列,从中筛选出含有不同重复基元的SSR且重复次数较多、长度较长的556条EST序列进行引物设计,开发了50对燕麦EST-SSR引物,通过筛选得到40对有效的EST-SSR引物。选取其中4对引物对5个燕麦种质资源进行了PCR扩增及产物测序,结果表明扩增条带多态性是由SSR差异造成的。利用40对ESTSSR引物对15个六倍体燕麦种质资源进行遗传多样性分析,共扩增出89个等位基因,平均每对引物产生2.23个等位基因;UPGMA聚类分析表明,15个六倍体燕麦种质资源在Dice系数为0.93处聚为3支,基本上是按照不同种进行聚类的,在相同种中又根据地理来源分别聚集成支。利用40对EST-SSR引物对31个遗传背景不清的燕麦种质资源进行基因组倍性鉴定,发现这些种质中可能存在有四倍体和二倍体的燕麦新资源。本研究开发的燕麦EST-SSR功能性标记将在燕麦遗传多样性分析、遗传图谱构建及燕麦属内种间基因组鉴定等方面发挥重要作用。     

Transferability of wheat microsatellites to diploid Aegilops species and determination of chromosomal localizations of microsatellites in the S genome.

Overall, 253 genomic wheat (Triticum aestivum) microsatellite markers were studied for their transferability to the diploid species Aegilops speltoides, Aegilops longissima, and Aegilops searsii, representing the S genome. In total, 88% of all the analyzed primer pairs of markers derived from the B genome of hexaploid wheat amplified DNA fragments in the genomes of the studied species. The transferability of simple sequence repeat (SSR) markers of the T. aestivum A and D genomes totaled 74%. Triticum aestivum-Ae. speltoides, T. aestivum-Ae. longissima, and T. aestivum-Ae. searsii chromosome addition lines allowed us to determine the chromosomal localizations of 103 microsatellite markers in the Aegilops genomes. The majority of them were localized to homoeologous chromosomes in the genome of Aegilops. Several instances of nonhomoeologous localization of T. aestivum SSR markers in the Aegilops genome were considered to be either amplification of other loci or putative translocations. The results of microsatellite analysis were used to study phylogenetic relationships among the 3 species of the Sitopsis section (Ae. speltoides, Ae. longissima, and Ae. searsii) and T. aestivum. The dendrogram obtained generally reflects the current views on phylogenetic relationships among these species.     

磁珠富集法开发北柴胡多态性简单序列重复标记

目的:利用磁珠富集法分离北柴胡微卫星序列,以开发北柴胡微卫星引物,获得有多态性的简单序列重复(SSR)标记。方法:用生物素标记的混合探针(AC)15、(AG)15、(MAB)12和两端连接已知序列人工接头的北柴胡基因组DNA酶切片段混和后与磁珠杂交,构建微卫星序列富集的小片段插入文库;利用接头引物分别与生物素探针引物Biotin-(AC)15、Biotin-(AG)15、Biontin-(MAB)12形成3个组合,用PCR方法对文库进行初步筛选;对可能的阳性克隆子进行测序复筛,选取微卫星侧翼序列足够长的序列设计引物,用荧光标记的基因分型技术以栽培柴胡种质为材料分析其多态性。结果:开发了5对多态性SSR标记,它们在5份柴胡栽培种质中共扩增出30.70个多态性等位基因,平均每条引物可以扩增出6.14个多态性等位基因;观察等位基因数最多13个,最少3个;有效等位基因数最多11.4个,最少1.6个。同时分析了4对EST-SSR引物,比较了2种SSR标记扩增结果。结论:磁珠富集法是开发柴胡多态性SSR标记的有效方法。     

EST derived SSR markers for comparative mapping in wheat and rice

Structural and functional relationships between the genomes of hexaploid wheat (Triticum aestivum L.) (2n=6x=42) and rice (Oryza sativa L.) (2n=2x=24) were evaluated using linkage maps supplemented with simple sequence repeat (SSR) loci obtained from publicly available expressed sequence tags (ESTs). EST-SSR markers were developed using two main strategies to design primers for each gene: (1) primer design for multiple species based on supercluster analysis, and (2) species-specific primer design. Amplification was more consistent using the species-specific primer design for each gene. Forty-four percent of the primers designed specifically for wheat sequences were successful in amplifying DNA from both species. Existing genetic linkage maps were enhanced for the wheat and rice genomes using orthologous loci amplified with 58 EST-SSR markers obtained from both wheat and rice ESTs. The PCR-based anchor loci identified by these EST-SSR markers support previous patterns of conservation between wheat and rice genomes; however, there was a high frequency of interrupted colinearity. In addition, multiple loci amplified by these primers made the comparative analysis more difficult. Enhanced comparative maps of wheat and rice provide a useful tool for interpreting and transferring molecular, genetic, and breeding information between these two important species. These EST-SSR markers are particularly useful for constructing comparative framework maps for different species, because they amplify closely related genes to provide anchor points across species.Communicated by R. Hagemann     

石斛SSR标记的开发及可转移性分析

当前已开发的石斛（Dendrobium）SSR标记仅100余对,难以满足研究的需要。为开发更多石斛分子标记,本研究通过生物信息学方法从公共核酸数据库搜索石斛SSR。结果表明,GenBank收录的3599条石斛DNA序列经拼接获得1343条Uni—DNA序列。经搜索,共检测出283个SSR,分布于205条Uni—DNA序列,平均每2815bp含一个SSR。通过序列比对,剔除86条已开发引物的SSR—DNA序列,从剩余的119条序列设计76对引物,并在石斛属32个种间进行可转移性分析,结果显示47对引物得到有效扩增,种间可转移率为51．1％N95．7％,平均为75．9％。有效扩增引物中有46对在石斛种间具多态性,检测出等位基因数2～8个,平均4．0个。选取10对多态性引物扩增60份铁皮石斛资源,每对引物检测出等位基因数2～5个,平均3．4个。根据SSR扩增带型将60份铁皮石斛资源聚为5大类,同一类型内的表型较类群间接近。对DMl21扩增产物测序表明铁皮石斛种内的SSR等位变异由SSR重复次数差异造成,而石斛种间的SSR等位变异还包含SSR位点侧翼序列的插入缺失以及替换。     

皂荚EST-SSR分子标记开发与分析评价

本研究旨在开发皂荚EST-SSR分子标记,为今后皂荚种质资源评价与分析提供基础。首先通过对已公布的皂荚转录组数据进行拼接得到41003个Unigenes,总长度70.4 Mb,平均长度1716 bp,N50为2533 bp。进一步在7009个Unigenes中检测到8494个EST-SSR位点,其中1200条Unigenes含有2个及以上的SSR位点,复合型SSRs有369个。针对所有EST-SSR位点设计得到6494条特异性引物,随机挑选60个位点进行试验验证与分析,其中44对引物可扩增出特异性片段,17对具有多态性,PIC值范围为0.195~0.742,均值为0.501,且大部分多态性位点位于UTR区域。通过对皂荚近缘种进行跨种PCR扩增试验,结果显示在开发的44对有效引物中,9个近缘种美国皂荚、日本皂荚、绒毛皂荚、滇皂荚、华南皂荚、小果皂荚、野皂荚、肥皂荚和美国肥皂荚分别有32、31、23、24、7、40、25、18和18对引物可获得有效扩增片段,说明EST-SSR标记在皂荚近缘种之间具有良好的通用性。研究表明利用转录组数据挖掘的EST-SSR位点具有扩增稳定、多态性良好、近缘种间通用等优点,是林木物种开发分子标记的有效途径之一。     

Genetic and physical mapping of new EST-derived SSRs on the A and B genome chromosomes of wheat

The availability of genetic maps and phenotypic data of segregating populations allows to localize and map agronomically important genes, and to identify closely associated molecular markers to be used in marker-assisted selection and positional cloning. The objective of the present work was to develop a durum wheat intervarietal genetic and physical map based on genomic microsatellite or genomic simple sequence repeats (gSSR) markers and expressed sequence tag (EST)-derived microsatellite (EST-SSR) markers. A set of 122 new EST-SSR loci amplified by 100 primer pairs was genetically mapped on the wheat A and B genome chromosomes. The whole map also comprises 149 gSSR markers amplified by 120 primer pairs used as anchor chromosome loci, two morphological markers (Black colour, Bla1, and spike glaucousness, Ws) and two seed storage protein loci (Gli-A2 and Gli-B2). The majority of SSR markers tested (182) was chromosome-specific. Out of 275 loci 241 loci assembled in 25 linkage groups assigned to the chromosomes of the A and B genome and 34 remained unlinked. A higher percentage of markers (54.4%), localized on the B genome chromosomes, in comparison to 45.6% distributed on the A genome. The whole map covered 1,605 cM. The B genome accounted for 852.2 cM of genetic distance; the A genome basic map spanned 753.1 cM with a minimum length of 46.6 cM for chromosome 5A and a maximum of 156.2 cM for chromosome 3A and an average value of 114.5 cM. The primer sets that amplified two or more loci mapped to homoeologous as well as to non-homoeologous sites. Out of 241 genetically mapped loci 213 (88.4%) were physically mapped by using the nulli-tetrasomic, ditelosomic and a stock of 58 deletion lines dividing the A and B genome chromosomes in 94 bins. No discrepancies concerning marker order were observed but the cytogenetic maps revealed in some cases small genetic distance covered large physical regions. Putative function for mapped SSRs were assigned by searching against GenBank nonredundant database using TBLASTX algorithms.     

Isolation of EST-derived microsatellite markers for genotyping the A and B genomes of wheat

Genetic variation present in 64 durum wheat accessions was investigated by using three sources of microsatellite (SSR) markers: EST-derived SSRs (EST-SSRs) and two sources of SSRs isolated from total genomic DNA. Out of 245 SSR primer pairs screened, 22 EST-SSRs and 20 genomic-derived SSRs were polymorphic and used for genotyping. The EST-SSR primers produced high quality markers, but had the lowest level of polymorphism (25%) compared to the other two sources of genomic SSR markers (53%). The 42 SSR markers detected 189 polymorphic alleles with an average number of 4.5 alleles per locus. The coefficient of similarity ranged from 0.28 to 0.70 and the estimates of similarity varied when different sources of SSR markers were used to genotype the accessions. This study showed that EST-derived SSR markers developed in bread wheat are polymorphic in durum wheat when assaying loci of the A and B genomes. A minumum of ten EST-SSRs generated a very low probability of identity (0.36×10⁻¹²) indicating that these SSRs have a very high discriminatory power. EST-SSR markers directly sample variation in transcribed regions of the genome, which may enhance their value in marker-assisted selection, comparative genetic analysis and for exploiting wheat genetic resources by providing a more-direct estimate of functional diversity. Received: 19 December 2000 / Accepted: 17 April 2001     

Evaluation of rice and sugarcane SSR markers for phylogenetic and genetic diversity analyses in bamboo.

Simple sequence repeat (SSR) markers are valuable tools for many purposes such as phylogenetic, fingerprinting, and molecular breeding studies. However, only a few SSR markers are known and available in bamboo species of the tropics (Bambusa spp.). Considering that grass genomes have co-evolved and share large-scale synteny, theoretically it should be possible to use the genome sequence based SSR markers of field crops such as rice (Oryza sativa) and sugarcane (Saccharum spp.) for genome analysis in bamboo. To test this, 98 mapped SSR primers representing 12 linkage groups of rice and 20 EST-derived sugarcane SSR primers were evaluated for transferability to 23 bamboo species. Of the tested markers, 44 (44.9%) rice and 15 (75%) sugarcane SSR primers showed repeatable amplification in at least one species of bamboo and thus were successfully utilized for phylogenetic and genetic diversity analyses. Transferred SSR primers revealed complex amplification patterns in bamboo, with an average of 9.62 fragments per primer, indicating a high level of polyploidy and genetic variability in bamboo. Forty-two of these primers (34 rice and 8 sugarcane SSR primers) detected an average of 2.12 unique fragments per primer and thus could be exploited for species identification. Six bamboo SSR primers exhibited cross transferability, to varying degrees, to different bamboo species. The genetic similarity coefficient indicated a high level of divergence at the species level (73%). However, a relatively low level of diversity was observed within species (25% in 20 accessions of Dendrocalamus hamiltonii). Further, cluster analysis revealed that the major grouping was in accordance with the taxonomical classification of bamboo. Thus, the rice and sugarcane SSRs can be utilized for phylogenetic and genetic diversity studies in bamboo.