草鱼Ⅰ型微卫星标记的发掘及其多态性检测

表达序列标签(EST)是发掘Ⅰ型微卫星标记的重要资源。研究运用生物信息学方法,从草鱼头肾组织3027条EST序列中搜索到322个微卫星位点,占整个EST数据库的10.6%。其中,二核苷酸重复位点151个(46.9%),三核苷酸重复位点137个(42.5%),四、五、六核苷酸重复位点较少;在二核苷酸重复位点中,AC/GT重复位点最为丰富,占二核苷酸重复位点总数的50.3%,AG/CT重复次之,占二核苷酸重复位点总数的40.4%,AT和GC重复较少。10个微卫星位点的多态性检测结果显示,4个位点在草鱼测试群体中呈多态性,多态性位点的平均多态信息含量(PIC)和平均遗传杂合度(H)分别为0.5236和0.5441,其中,2个多态性位点的PIC值大于0.5,呈现高度多态性特征。Ⅰ型微卫星标记将为草鱼遗传连锁图谱构建和QTL分析提供有效的基因分子标记。       

中国明对虾基因组微卫星重复单元类型与其多态性关系

利用超声波粉碎中国明对虾Fenneropenaeus chinensis基因组后建立随机基因组文库,对其测序后获得了1996个克隆序列,经SeqmanⅡ（DNAstar）拼装后获得独立克隆数目为1900个,每个序列长度从400－700bp不等。利用重复序列分析软件对这些序列中含有微卫星重复序列的序列进行分析,共找到136个包含完整侧翼序列的重复序列。利用引物设计软件从以上重复序列中设计出34对引物,合成引物后,通过PCR扩增和聚丙烯酰胺凝胶电泳的方法获得了各个微卫星位点的等位基因数目。34对引物中,除4个没有扩增出产物外,其他都有较好的扩增结果,可以分辨出多态性信息情况,并据此分析了不同微卫星重复序列类型与其对应的位点多态性之间的关系。结果表明,两碱基重复类型具有较高的遗传多态性,而三碱基和四碱基以及复合型重复类型的平均多态性不高;两碱基重复序列类型各拷贝类别间的多态性信息没有明显的差异。进一步对两碱基的重复拷贝数目与多态性信息（等位基因数目）的相关关系进行分析,以考察拷贝数多少与等位基因数目之间的关系。利用SPSS软件进行相关分析,结果表明重复拷贝数目和等位基因数目呈一定相关（相关系数0.121）,但相关性不显著（P＝0.621）。     

微卫星遗传标记及其在昆虫种群遗传学中的应用

微卫星是一类短串联重复的寡核苷酸序列,广泛地分散于各类真核生物基因组中,它具有多态性高、检测结果稳定可靠等特点,是目前较为理想的群体遗传研究的分子标记之一。该文阐述了微卫星DNA构成及特点,多态性形成机制、位点获得途径,列举了微卫星遗传标记在昆虫种群遗传学研究中的应用实例,并展望了该技术的应用前景。     

西藏小型猪线粒体D-loop区及微卫星多态性的遗传学分析

目的通过分析西藏小型猪线粒体控制区(D-loop区)及微卫星位点的遗传多态性,检测西藏小型猪的遗传背景,从而为其作为实验动物提供分子生物学方面的可靠依据。方法利用特异性引物对西藏小型猪的线粒体D-loop区及10个具有多态性的微卫星位点进行扩增,割胶纯化并对线粒体D-loop区进行测序,另外采用聚丙烯酰胺凝胶电泳的方法分离微卫星位点的等位基因。结果西藏小型猪线粒体D-loop区全序列没有多态性,微卫星位点则具有高度的遗传多态性和杂合度,分别为0.584和0.573。结论西藏小型猪线粒体基因组无多态性,证明其在母系进化和遗传上与其他猪种较为一致,本实验所用的西藏小型猪生长于一个封闭的环境,导致其微卫星位点遗传多态性的中低度水平。     

微卫星及其应用

微卫星是广泛分布于真核生物基因组中的短串联重复序列（1-5bp),具有突变速率快、多态性高等特性,已被广泛应用于生物遗传作图、群体遗传研究、个体间亲缘关系鉴定等方面。简要论述了微卫星的突变、位点的分离、数据的收集、在生物学中的应用及其存在的缺陷。     

水稻微卫星标记的发展和应用

微卫星又称简单序列重复。它是由几个核苷酸（一般２～４个）为重复单位组成的串联重复序列。相同座位上的重复序列由于重复次数的不同而造成序列长度的多态性。微卫星标记是一种共显性标记,具有等位基因丰富、检测技术简单等优点。微卫星标记在基因组作图、品种鉴定、种质保存、分子标记辅助选择等方面有着广泛的应用。目前水稻中已发展了３００多个微卫星标记。     

鮸鱼EST 序列中微卫星标记的初步筛选及特征分析

为大规模发掘和利用Ⅰ型微卫星标记, 通过建立全长均一化cDNA 文库和随机序列测定, 对鱼鮸转录基因组进行较大规模的微卫星序列特征分析和初步筛选。研究从4609 条高质量ESTs 中筛选到382 条微卫星序列, 筛出率为8.29%, 平均每318 bp 的ESTs 中就有一段不小于14 bp 的微卫星序列。筛选到的微卫星全部在低拷贝区间, 且重复类型丰富, 其中, 二核苷酸和三核苷酸重复类型出现频率较高, 分别占微卫星总序列的37.43%和32.98%。这两种类型的微卫星序列占到所有微卫星序列数目的70.41%, 而每种重复类型中的优势拷贝类型又存在差异, 两核苷酸微卫星中AC 型含量最高, 达到75.4%; 三核苷酸重复的优势重复类型是A、G 组合的基元重复类型(AAG 和AGG), 占三核苷酸类型的44.75%。根据设计的45 对引物的多态检测, 在可以扩增的33 对引物中筛选到9 个多态位点, 多态位点的比例达到20%。这表明黑鮸EST-SSR 中的多态位点比较丰富, 适于进行大规模EST-SSR 多态标记的筛选。以上结果为近缘物种间的微卫星分布频率和丰度的比较、鮸鱼及近缘物种可用Ⅰ型微卫星标记开发等工作提供基础和分析平台。       

北太平洋柔鱼微卫星标记的筛选及遗传多样性

采用(AC)12、(AG)12两种生物素探针,通过磁珠富集法构建了柔鱼部分基因组微卫星富集文库。68个阳性克隆中有60个含有微卫星序列,重复次数在10次以上的占86.84%,最高重复次数为33次。其中,完美型微卫星占60.53%,非完美型微卫星占36.84%,混合型微卫星占2.63%。除探针使用的AC/TG、AG/TC重复外,还得到ACAG、AGAC重复序列。利用筛选出的8个微卫星位点对北太平洋柔鱼6个群体的遗传多样性及遗传结构进行分析。结果表明,8个微卫星位点均为高度多态性位点(PIC=0.787—0.987),位点Bo103与位点Bo105极显著偏离Hardy-Weinberg平衡(P0.01)。6个地理位置的柔鱼群体显示出较高的遗传多样性水平(Ho=0.672—0.761,He=0.808—0.851)。两两群体间的Fst值以及AMOVA分析结果均表明,群体间遗传分化不显著(Fst=0.00559,P0.05),遗传差异主要来自于个体间。基于Nei's遗传距离的UPGMA聚类树显示,北太平洋东北部2个柔鱼群体(NE1、NE3)聚为一类,西北部3个群体(NW1、NW2、NW3)与东北部1个群体(NE2)另聚为一类,且群体NW1与群体NE2亲缘关系最近,遗传距离与地理距离线性相关分析没有呈现出正相关性(R=0.175,P0.05)。遗传结构分析结果推断北太平洋柔鱼存在1个理论群。柔鱼个体具有较强的游泳能力,在海流的作用下,群体之间存在较强的基因交流。建议今后在柔鱼资源开发利用过程中将北太平洋柔鱼看作1个管理单元。     

树鼩微卫星DNA的多态性研究

目的探索并建立一种检测树鼩群体遗传多样性的方法。方法利用聚合酶链反应（PCR）扩增技术对30只树鼩个体的11个微卫星位点进行了遗传检测。结果所选的11个微卫星DNA位点中,有9个具有高度多态性,2个微卫星DNA位点多态性较差。结论所研究的树鼩微卫星位点中,有9个符合遗传标记特点,可用于检测树鼩群体的遗传多样性。     

鳞翅目昆虫基因组中微卫星DNA的特征以及对其分离的影响

本文根据我们对鳞翅目昆虫棉铃虫和松毛虫以及其它动物 (筏蜘蛛、朱、鳕鱼和飞蝗 )的微卫星富集性基因组DNA文库的筛选和分析结果 ,结合其它实验室已发表的资料 ,对鳞翅目昆虫基因组中微卫星DNA的丰度和结构特点进行了较为系统的分析。结果表明 :与其它类群相比 ,尽管鳞翅目昆虫物种间存在差异 ,但其基因组中存在明显偏多的侧翼序列重复的、以多拷贝形式存在的微卫星位点 ,且其中相当一部分以基因家族的形式存在。微卫星DNA家族通常可以在序列分析阶段被识别出来 ,但很多多拷贝位点只有通过一系列后续分析才能被检查出来。这应是鳞翅目昆虫中微卫星位点的优化率相对偏低的主要原因。棉铃虫和松毛虫基因组中三相重复微卫星丰度相对较高 ,从而从某种程度上补偿了这些物种微卫星分离过程中因丰度低、多拷贝位点比例高所带来的困难。棉铃虫微卫星DNA家族侧翼序列中多聚T/A序列的存在表明 ,逆转录转座或逆转录侵染可能是在基因组中形成多拷贝微卫星位点和微卫星DNA家族的重要机制之一     

Intraspecific and intraorganismal copy number dynamics of retrotransposons and tandem repeat in <Emphasis Type="Italic">Aegilops speltoides</Emphasis> Tausch (Poaceae,Triticeae)

Transposable elements (TE) and tandem repeats (TR) compose the largest fraction of the plant genome. The abundance and repatterning of repetitive DNA underlie intrapopulation polymorphisms and intraspecific diversification; however, the dynamics of repetitive elements in ontogenesis is not fully understood. Here, we addressed the genotype-specific and tissue-specific abundances and dynamics of the Ty1-copia, Ty3-gypsy, and LINE retrotransposons and species-specific Spelt1 tandem repeat in wild diploid goatgrass, Aegilops speltoides Tausch. Copy numbers of TEs and TR were estimated by real-time quantitative PCR in vegetative and generative tissues in original plants from contrasting allopatric populations and artificial intraspecific hybrids. The results showed that between leaves and somatic spike tissues as well as in progressive microsporogenesis of individual genotypes, the copy numbers of three TEs correlatively oscillated between 2- to 4-fold and the TR copy numbers fluctuated by 18- to 440-fold. Inter-individual and intraorganismal TEs and TR copy number dynamics demonstrate large-scale parallelism with extensive chromosomal rearrangements that were detected using fluorescent in situ hybridization in parental and hybrid genotypes. The data obtained indicate that tissue-specific differences in the abundance and pattern of repetitive sequences emerge during cell proliferation and differentiation in ontogenesis and reflect the reorganization of individual genomes in changing environments, especially in small peripheral population(s) under the influence of rapid climatic changes.     

Slipped-strand mispairing at noncontiguous repeats in Poecilia reticulata: a model for minisatellite birth

The standard slipped-strand mispairing (SSM) model for the formation of variable number tandem repeats (VNTRs) proposes that a few tandem repeats, produced by chance mutations, provide the "raw material" for VNTR expansion. However, this model is unlikely to explain the formation of VNTRs with long motifs (e.g., minisatellites), because the likelihood of a tandem repeat forming by chance decreases rapidly as the length of the repeat motif increases. Phylogenetic reconstruction of the birth of a mitochondrial (mt) DNA minisatellite in guppies suggests that VNTRs with long motifs can form as a consequence of SSM at noncontiguous repeats. VNTRs formed in this manner have motifs longer than the noncontiguous repeat originally formed by chance and are flanked by one unit of the original, noncontiguous repeat. SSM at noncontiguous repeats can therefore explain the birth of VNTRs with long motifs and the "imperfect" or "short direct" repeats frequently observed adjacent to both mtDNA and nuclear VNTRs.     

新疆喀什维吾尔族结核病患者结核分枝杆菌5个VNTRs基因分型研究

目的:应用多位点数目可变串联重复序列分析(multiple loci VNTR analysis,MLVA)技术,对新疆喀什地区维吾尔族结核病患者结核分枝杆菌临床分离株进行基因分型,探讨5个数目可变串联重复序列(VNTR)基因型种类及其分布。方法:收集结核分枝杆菌,采用PCR和琼脂糖凝胶电泳技术,结合BioNumerics5.0软件,对其5个VNTR位点进行结果分析。结果:分离出58株结核分枝杆菌,分为4个基因群21个基因型,分别为Ⅰ群占19.1%,含7个基因型;Ⅱ群占3.4%,含2个基因型;Ⅲ群占67.2%,含9个基因型;Ⅳ群占10.3%,含5个基因型。结论:新疆喀什地区维吾尔族结核病患者的结核分枝杆菌存在明显的基因多态性,且存在主要流行菌群。     

A cytoplasmic male sterility-associated rearrangement of the mitochondrial cob gene region in the sugar beet (Beta vulgaris L.) genome

Physical maps of the cob mtDNA region were constructed and compared between sugar beet Beta vulgaris L. plants with normal fertility and with cytoplasmic male sterility (CMS). A CMS-associated rearrangement did not affect the coding region of cob and combined two mtDNA regions which are normally about 150 kb apart. Two point substitutions were found in the 3'-untranslated region of cob.     

Detection of species-specific long VNTRs in mitochondrial control region and their application to identifying sympatric Hong Kong grouper (Epinephelus akaara) and yellow grouper (Epinephelus awoara)

Length variation and heteroplasmy were observed in PCR products of the first half of mtDNA control region of both Hong Kong grouper (Epinephelus akaara) and yellow grouper (Epinephelus awoara). DNA sequencing unveiled the phenomena were caused by the presence of species-specific long variable number tandem repeats (VNTRs). This is the first report on the mtDNA VNTRs and their heteroplasmy in groupers. Moreover, these VNTRs are also the longest such structure found in teleost fish. Thereafter, we designed two species-specific PCR reverse primers according to the 3' end sequences of the VNTRs and successfully established assays for the identification of these two sympatric grouper species.     

Genome-wide prediction of human VNTRs

Polymorphic minisatellites, also known as variable number of tandem repeats (VNTRs), are tandem repeat regions that show variation in the number of repeat units among chromosomes in a population. Currently, there are no general methods for predicting which minisatellites have a high probability of being polymorphic, given their sequence characteristics. An earlier approach has focused on potentially highly polymorphic and hypervariable minisatellites, which make up only a small fraction of all minisatellites in the human genome. We have developed a model, based on available minisatellite and VNTR sequence data, that predicts the probability that a minisatellite (unit size > or = 6 bp) identified by the computer program Tandem Repeats Finder is polymorphic (VNTR). According to the model, minisatellites with high copy number and high degree of sequence similarity are most likely to be VNTRs. This approach was used to scan the draft sequence of the human genome for VNTRs. A total of 157,549 minisatellite repeats were found, of which 29,224 are predicted to be VNTRs. Contrary to previous results, VNTRs appear to be widespread and abundant throughout the human genome, with an estimated density of 9.1 VNTRs/Mb.     

VNTRseek—a computational tool to detect tandem repeat variants in high-throughput sequencing data

DNA tandem repeats (TRs) are ubiquitous genomic features which consist of two or more adjacent copies of an underlying pattern sequence. The copies may be identical or approximate. Variable number of tandem repeats or VNTRs are polymorphic TR loci in which the number of pattern copies is variable. In this paper we describe VNTRseek, our software for discovery of minisatellite VNTRs (pattern size ≥ 7 nucleotides) using whole genome sequencing data. VNTRseek maps sequencing reads to a set of reference TRs and then identifies putative VNTRs based on a discrepancy between the copy number of a reference and its mapped reads. VNTRseek was used to analyze the Watson and Khoisan genomes (454 technology) and two 1000 Genomes family trios (Illumina). In the Watson genome, we identified 752 VNTRs with pattern sizes ranging from 7 to 84 nt. In the Khoisan genome, we identified 2572 VNTRs with pattern sizes ranging from 7 to 105 nt. In the trios, we identified between 2660 and 3822 VNTRs per individual and found nearly 100% consistency with Mendelian inheritance. VNTRseek is, to the best of our knowledge, the first software for genome-wide detection of minisatellite VNTRs. It is available at http://orca.bu.edu/vntrseek/.