齿缘摄龟线粒体基因组全序列与系统进化

采用常规PCR扩增并测序获得了齿缘摄龟(Cyclemys dentata)线粒体DNA(mtDNA)全序列,并研究了其基因组结构特点;根据20种龟的线粒体基因组重链蛋白编码基因序列,分别利用最大简约法(MP)、最大似然法(ML)和贝叶斯法(Bayesian)构建系统进化树,探讨这些龟鳖物种之间的系统进化关系。结果显示,齿缘摄龟线粒体基因组全序列长为16489 bp(GenBank登录号为JX455823),A+T含量为61.51%,编码37个基因,包括13个蛋白质编码基因,2个rRNA,22个tRNA和1个控制区(Dloop),基因组成与其他龟鳖类动物相似;非编码区D-loop长973 bp,包含1个中央保守区(CD),2个扩展终止结合序列区(ETASs),3个保守盒(CSBs);构建的MP树、ML树和Bayesian树的拓扑结构相似,闭壳龟属7种龟聚为一枝,拟水龟属6种龟聚为一枝,齿缘摄龟与黑桥摄龟聚在一枝,3种进化树均支持这些龟鳖物种现有的分类学地位。     

龟鳖类线粒体全基因组的比较研究

在基因组水平上,比较分析了已登录GenBank的19种龟鳖类线粒体全基因组的结构特征．结果表明：1）除平胸龟、扁陆龟外,其余17种龟鳖类线粒体基因组结构、基因排列顺序均与典型的脊椎动物相似,显示龟鳖类线粒体基因组在进化上十分保守：2）19种龟鳖类线粒体全基因组和各部分的碱基组成均表现出高AT、低G含量的偏向,在控制区中表现尤为明显：3）除中华鳖和白腹摄龟外,其余种类的某些蛋白编码基因中都存在一个或多个额外插入的核苷酸：4）除侧颈龟亚目的非洲侧颈龟外,其余18种曲颈龟线粒体DNA的“WANCY”区中都存在轻链复制起始点（OL）,且它们的二级结构、核苷酸组成高度保守,推测该结构可能是曲颈龟亚目的一个共同特征：5）部分龟鳖类线粒体基因组控制区3’端存在大片段（200～450bp）的重复序列,某些龟鳖类中有由（AT）构成的微卫星序列,并且这些拷贝序列在种间表现出一定的差异,其可作为特异的分子标记,对于龟鳖类动物系统学的研究、亲缘关系的鉴定、物种多样性的保护和研究等方面具有重要的参考价值．     

蛇鳄龟微卫星标记的开发及一个养殖群体的遗传多样性分析

利用磁珠富集法, 以生物素标记的(CA)15为探针, 构建了蛇鳄龟(Chelydra serpentina L.)微卫星富集文库。通过PCR法从富集文库中共筛选出70条微卫星序列, 一共设计了48对微卫星引物, 采用PCR扩增的方法从中筛选出36对引物, 对一个蛇鳄龟养殖群体进行遗传多样性分析。通过分析, 36个位点获得的等位基因数从29不等, 平均为4.361, 有效等位基因为1.4617.767, 平均为3.498。等位基因片段大小为56342 bp, 观测杂合度为0.0671.000, 平均为0.725; 期望杂合度为0.3160.850, 平均0.600; 多态信息含量为0.26550.8359, 平均为0.5573; 结果表明此蛇鳄龟养殖群体存在较高的遗传多样性水平。群体内固定系数-0.6880.856, 平均为-0.214, 说明蛇鳄龟群体中杂合子过剩。       

不同产地中华鳖的线粒体控制区序列分析及结构比较

采用PCR特异引物,扩增了两产地中华鳖（Pelodiscus sinensis）个体的mtDNA控制区（CR）及其邻近片段,测序获得了长度分别为1830bp和1630bp的序列。结合GenBank中已发表的韩国产中华鳖mtDNA的CR区序列,比较了3个产地中华鳖的CR区结构。分析显示：中华鳖不同产地mtDNA CR区DNA中的A＋T含量分别为60.5%、63.6%和64.8%,它们的5′、3′末端以及CSB1-CSB2之间均存在丰富的可变数目串联重复序列（variable numbers oftandem repeats,VNTR）。基于mtDNA CR区序列和结构分析,显示中华鳖不同产地的野生个体中存在丰富的遗传多样性。     

辽东湾斑海豹(Phoca largha)线粒体D-loop区异质型研究初探

采用PCR技术和DNA克隆测序技术,随机测定了3头斑海豹mtDNA控制区(D-loop区)csn-3上、下游1000bp左右的序列,每头斑海豹任选14个克隆菌斑进行测序,结果所得序列均无重复,得到42个单倍型.结合GenBank已发表的斑海豹mtDNA控制区序列(Phoca largha,AM181031),通过Clusta1X1.83、MEGA3.1和FastPCRv3.6等生物信息学软件进行序列比对,发现我国珍稀保护动物斑海豹个体内线粒体DNA(mtDNA)的控制区CSB-3之后存在异质型现象,且存在数目不等的串联重复序列.从分子水平进行了不同类型重复序列变化规律的研究,初探了mtDNA控制区异质型在斑海豹中的存在情况.     

大鳄龟感染蛙病毒的PCR检测及组织病理分析

2013年3月成都市某海洋馆送检2只发病大鳄龟(Macrochelys temminckii),临床特征表现为:精神状态萎靡,爬行无力,对外界刺激反应迟钝;颈部和四肢局部红肿,腹甲溃烂,严重部位甚至穿孔,最后死亡。为明确患病大鳄龟的病因,进行了细菌学、组织病理学和PCR检查。细菌学检查阴性;病理组织学观察发现,大鳄龟多组织、器官均发生严重病变,尤其是肾、肝、肺和心的损伤最为严重,表现为明显的变性、坏死和炎症细胞浸润,并在一些病变组织细胞浆内见嗜酸性或嗜碱性包涵体。针对蛙病毒(Ranavirus)病毒的特异性PCR检测扩增出蛙病毒主要衣壳蛋白(MCP)基因500 bp目的片段,测序后的DNA序列与Gen Bank中已知核酸序列进行Blast比对,发现其与Gen Bank中的蛙病毒主要衣壳蛋白基因同源性达95%~99%。根据组织病理特点及PCR检测结果推测大鳄龟的死亡是感染蛙病毒所致。     

论龟科和陆龟科

<正> 龟科(Emydidae)和陆龟科(Tesrudinidae)同是隐颈龟亚目(Cryptodira,也叫曲颈龟亚目)中两类最为常见的主要类群。它们不仅有为数众多的化石种类,其现生种类的总数也占所有现生龟鳖类的三分之二。这两科龟类在其起源、地史分布、甚至某些形态构造方面,都有一定的相近之处,无怪有的学者主张将两科合并为一科,但也有持不同意见的。笔者在从事化石龟鳖类的研究过程中,对于这两类动物,有时也遇到某些疑难问题,特别是     

都柳江鲤、鲫和草鱼种群mtDNA控制区及遗传多样性分析

采用PCR和DNA测序技术对贵州都柳江鲤(Cyprinus carpio)、鲫(Carassius auratus)和草鱼(Ctenopharyngodon idellus)种群的mtDNA控制区序列及遗传多样性进行了研究。获得了都柳江鲤、鲫和草鱼mtDNA控制区长度分别为899~901 bp、787 bp和901~905 bp的序列。该3种鱼类控制区碱基A、T含量较高,G含量最低。识别了该3种鱼类mtDNA控制区终止序列区、中央保守区和保守序列区等保守序列。其中,除CSB-2和CSB-3碱基组成相同外,其余核心序列碱基组成存在着差异。都柳江鲤、鲫和草鱼种群mtDNA控制区分别有24、24和11个多态位点,分属12、17和8个单倍型。都柳江鲤、鲫种群遗传多样性较高,草鱼种群遗传多样性较低。因此,有必要开展都柳江草鱼种群遗传多样性的保护。     

五种鲟鱼线粒体控制区异质性和系统发育分析

利用保守引物得到五种鲟鱼的线粒体DNA（mtDNA）控制区（D-loop）全长,长度在795~813 bp。序列中包括了CBS（conserved sequence block）和TAS（termination-associated sequence）区域。利用最大似然法、最大简约法和贝叶斯法构建了系统发育树,发育树分成两枝,呈现明显的生物地理分布。分析表明,现有的鳇属鱼类不是单系群起源。五种鲟鱼D-loop序列都存在长度和数目不等串联重复序列,长度在78~82 bp之间,重复序列拷贝数在4~6次不等,因此造成了mtDNA广泛的异质性现象。不同种类的重复序列单元十分相似,达氏鳇和史氏鲟重复序列单元相似度为82.93%,西伯利亚鲟和俄罗斯鲟重复序列单元相似度为90.59%。在串联重复序列后是一段不完全重复序列。通过与已有同种的重复序列比对发现不同鲟鱼重复序列相同,不同地理区域相同物种的重复序列可能发生过分子内重组。这些表明重复序列在鲟鱼进化上具有相关意义,推测重复序列可能产生在种分化前,重组发生在种分化后。     

鸮形目两种鸟类线粒体基因组全序列测定与比较研究

利用Long-PCR和Primer Walking结合克隆测序法对短耳鸮和长耳鸮线粒体基因组进行了全序列测定. 结果表明: 短耳鸮mtDNA序列全长为18858 bp, 长耳鸮mtDNA全长为18493 bp, 其中短耳鸮mtDNA是目前已知最长的鸟类线粒体基因组. 两种鸮类的基因组结构和基因排列顺序与家鸡相同, 无假控制区, 在ND3基因174位点都存在一个额外插入的胞苷酸(C). 控制区序列异常增大是造成这两种鸟类mtDNA增大的主要原因, 短耳鸮控制区长度为3288 bp, 长耳鸮为2926 bp, 这是目前已知的脊椎动物线粒体基因组中仅次于盲鳗的最大的控制区. 在其控制区3′端存在大量的串联重复序列, 分析发现这两种鸮类的重复序列和Mt5调控元件有较高的序列相似性, 且能形成多重的茎环二级结构, 这表明该重复序列可能具有一定的生理功能, 影响线粒体基因组的复制或转录表达, 从而使相应物种具有更大的选择优势, 以适应环境和生存竞争.     

The mitochondrial DNA control region comparison studies of four hinged turtles and its phylogentic significance of the genusCuora sensu lato (Testudinata: Geoemydidae)

The complete sequences of the mitochondrial DNA (mtDNA) control region (CR) ofCistoclemmys flavomarginata, Cistoclemmys galbinifrons, Cuora aurocapitata andCyclemys atripons were amplified by long-polymerase chain reaction (Long-PCR). The lengths were 1207 bp, 1722 bp, 1379 bp and 980 bp, respectively. Combining with the CR sequence ofPyxidea mouhotii (DQ659152), we compared the CR structure, and identified three functional domains (TAS, CD and CSB) in which the conservation sequences (TAS, CSB-F, CSB-1, CSB-2 and CSB-3) were also successfully identified according to their homology to those of other turtles. These 5 turtles have the identical CSB-2 and CSB-3 sequences, and 4 of them have the same CSB-1 sequence while there is one base transversion (T → A) inCy. atripons. We analyzed the variable number of tandem repeat (VNTR) sequences or microsatellites at the 3′ end of CR. The motifs of tandem repeats (7 types) are made up of 2–8 nucleotides, and the copy numbers are from 4 to 48. All of the 5 turtles exceptCy. atripons have the “TATTATAT” repeats and are ended by TA. The results of CR structure analysis displayed that theCuora, Cistoclemmys, andPyxidea have many similarities, but differ fromCyclemys. WithIndotestudo elongate (DQ080043) andIndotestudo forstenii (DQ080044) as outgroups, using the CR sequences (1123bp) excluded the microsatellites at the 3′ end of CR, we constructed the molecular phylogenetic trees using the MP, ML and BI methods. The results showed that there was a strong support to the monophyly of theCuora group consisting ofCuora,Cistoclemmys andPyxidea, which has a close relationship withMauremys andChinemys but far fromCyclemys, which are consistent with the analysis of the CR structure of the 5 turtles.     

Initial analysis of tandemly repetitive sequences in the genome of Zhikong scallop (Chlamys farreri Jones et Preston).

Tandemly repetitive sequences are widespread in all eukaryotic genomes, but data on tandem repeats are limited in Zhikong scallop (Chlamys farreri). In the present study, paired-end sequencing of 2016 individual fosmid clones resulted in 3646 sequences. A total of 2,286,986 bp of genomic sequences were generated, representing approximately 1.84 per thousand of the Zhikong scallop genome. Using tandem repeats finder (TRF) software, a total of 2500 tandem repeats were found, including 313 satellites, 1816 minisatellites and 371 microsatellites. The cumulative length of tandem repeats was 552,558 bp, accounting for 24.16% of total length. Specifically, the length of microsatellites, minisatellites and satellites was 9425, 336,001 and 207,132 bp, accounting for 1.71, 60.81 and 37.49% of the length of tandem repeats, and 0.41, 14.69 and 9.06% of total length, respectively. The detailed information on the characteristic of all repeat units was also represented, which will provide a useful resource for physical mapping and better utilization of the existing genomic information in Zhikong scallop.     

Characterization of rabbit DNA micros extracted from the EMBL nucleotide sequence database

Microsatellite polymorphisms are invaluable for mapping vertebrate genomes. In order to estimate the occurrence of microsatellites in the rabbit genome and to assess their feasibility as markers in rabbit genetics, a survey on the presence of all types of mononucleotide, dinucleotide, trinucleotide and tetranucleotide repeats, with a length of about 20 bp or more, was conducted by searching the published rabbit DNA sequences in the EMBL nucleotide database (version 32). A total of 181 rabbit microsatellites could be extracted from the present database. The estimated frequency of microsatellites in the rabbit genome was one microsatellite for every 2–3 kb of DNA. Dinucleotide repeats constituted the prevailing class of microsatellites, followed by trinucleotide, mononucleotide and tetranucleotide repeats, respectively. The average length of the microsatellites, as found in the database, was 26, 23, 23 and 22 bp for mono-, di-, tri- and tetranucleotide repeats, respectively. The most common repeat motif was AG, followed by A, AC, AGG and CCG. This group comprised about 70% of all extracted rabbit microsatellites. About 61% of the microsatellites were found in non-coding regions of genes, whereas 15% resided in (protein) coding regions. A significant fraction of rabbit microsatellites (about 22%) was found within interspersed repetitive DNA sequences.     

Organization and primary nucleotide sequence of 5S rRNA genes in barley Hordeum vulgare

A BamHI DNA fragment of 301 bp corresponding to the main repeating unit of 5S rRNA was isolated from barley genomic DNA. The primary nucleotide sequence of this fragment was determined and a high level of homology was found between coding sequences of 5S rRNA genes of barley, wheat and rye. At the same time, spacer's nucleotide sequences of different species of cereals were changed dramatically. At least two types of 5S rRNA tandem repeats of 301 and 450 bp were found in barley genome. Polymorphism for restriction fragment length in 5S rRNA repeats allowed to discriminate between all barley varieties used in this work.     

Chloroplast microsatellites in Prunus,Rosaceae

Ten chloroplast microsatellite markers were developed from Japanese plum (Prunus salicina) based on nucleotide sequences of c. 4300 bp from six chloroplast regions. Out of 10 microsatellites, seven markers contained mononucleotide repeats. Almost all microsatellites displayed discrete amplified fragments for 17 species in Prunus. The microsatellites generated 46 different fragment types and differentiated all used species. Polymorphism was also observed within species for all microsatellites.     

In silico mining in expressed sequences of Neurospora crassa for identification and abundance of microsatellites

In the present study, 3217 UniGene sequences of Neurospora crassa downloaded from the National Center for Biotechnology Information (NCBI) were mined for the identification of microsatellites or simple sequence repeats (SSRs). A total of 287 SSRs detected gives density of 1SSR/14.6 kb of 4187.86 kb sequences mined suggests that only 250 (7.8%) of sequences contained SSRs. Depending on the repeat units, the length of SSRs ranged from 14 to 17 bp for mono-, 14 to 48 bp for di-, 18 to 90 bp for tri-, 24 to 48 bp for tetra-, 30 for penta- and 42 to 48 bp for hexa-nucleotide repeats. Tri-nucleotide repeats were the most frequent repeat type (88.8%) followed by di-nucleotide repeats (5.9%). An attempt was also made with the help of bioinformatics approach to find out primer pairs for identified SSRs and primers were found only for 239 sequences. But, this part needs experimental validation. Annotation of SSRs containing sequences was also carried out.     

Comparative analyses of human single- and multilocus tandem repeats

Using the compiled human genome sequence, we systematically cataloged all tandem repeats with periods between 20 and 2000 bp and defined two subsets whose consensus sequences were found at either single-locus tandem repeats (slTRs) or multilocus tandem repeats (mlTRs). Parameters compiled for these subsets provide insights into mechanisms underlying the creation and evolution of tandem repeats. Both subsets of tandem repeats are nonrandomly distributed in the genome, being found at higher frequency at many but not all chromosome ends and internal clusters of mlTRs were also observed. Despite the integral role of recombination in the biology of tandem repeats, recombination hotspots colocalized only with shorter microsatellites and not the longer repeats examined here. An increased frequency of slTRs was observed near imprinted genes, consistent with a functional role, while both slTRs and mlTRs were found more frequently near genes implicated in triplet expansion diseases, suggesting a general instability of these regions. Using our collated parameters, we identified 2230 slTRs as candidates for highly informative molecular markers.     

Characterization of microsatellites in Bambusa arundinacea and cross species amplification in other bamboos

Microsatellites, tandem repeats of short nucleotide (1-6 bp) sequences, are the DNA marker of choice because of their highly polymorphic, ubiquitous distribution within genome, ease of genotyping through polymerase chain reaction (PCR), selectively neutral, co-dominant and multi allelic nature. Six microsatellites, three polymorphic and three monomorphic, have been characterized for the first time in a bamboo species, Bambusa arudinacea belonging to the family Poaceae. The number of alleles per locus ranges form 2 to 13. Allelic diversity ranges from 0.041 to 0.870. Polymorphic information content (PIC) values for two loci were > 0.3, an indicator of polymorphic allele. Cross species amplification has been tested in other 18 bamboo species. Monomorphic simple sequence repeats (SSRs) have been found to be cross amplified in most of the tested species while polymorphic ones in only three to four species. The utility of the SSR loci in genetic diversity study of B. arundinacea and other cross amplified bamboo species have been discussed.     

Repetitive sequences in Eurasian lynx (Lynx lynx L.) mitochondrial DNA control region

Mitochondrial DNA (mtDNA) control region (CR) of numerous species is known to include up to five different repetitive sequences (RS1-RS5) that are found at various locations, involving motifs of different length and extensive length heteroplasmy. Two repetitive sequences (RS2 and RS3) on opposite sides of mtDNA central conserved region have been described in domestic cat (Felis catus) and some other felid species. However, the presence of repetitive sequence RS3 has not been detected in Eurasian lynx (Lynx lynx) yet. We analyzed mtDNA CR of 35 Eurasian lynx (L. lynx L.) samples to characterize repetitive sequences and to compare them with those found in other felid species. We confirmed the presence of 80 base pairs (bp) repetitive sequence (RS2) at the 5' end of the Eurasian lynx mtDNA CR L strand and for the first time we described RS3 repetitive sequence at its 3' end, consisting of an array of tandem repeats five to ten bp long. We found that felid species share similar RS3 repetitive pattern and fundamental repeat motif TACAC.     

鸮形目4种鸟类线粒体调控区全序列的测定与比较研究

利用Long-PCR和Primer Walking的方法对鸮形目的短耳鸮、长耳鸮、纵纹腹小鸮、灰林鸮4种鸟类的线粒体调控区进行了全序列测定。结果表明：短耳鸮的调控区跃度为3290bp;长耳鸮为2848bp;纵纹腹小鸮为2444bp;灰林鸮为1771bp。短耳鸮的调控区长度是4种鸮中最大的,并且是目前已知最大的鸟类线粒体调控区。这4种鸮类调控区的基本结构和其他鸟类相似,按照碱基变化速率的不同可以分为3个区：碱基变化速率较快的外围区域Ⅰ、Ⅲ和保守的中间区域Ⅱ。这4种鸟类调控区的3’端均存在大量的串联重复序列,短耳鸮为126bp单元重复7次和78bp单元重复14次;长耳鸮为127bp单元重复8次和78bp单几重复6次;纵纹腹小鸮有3个重复单元,分别为89bp单元重复3次、77bp单元重复4次和71bp单元重复6次;灰林鸮仅有1个单元的串联重复为78bp重复5次。调控区中串联重复序列可能是由链的滑动错配产生,另外这些重复序列都能形成热力学稳定的多重茎环二级结构,而且在重复序列中还发现一些保守基序,这说明重复序列可能具有一定的生理功能,影响调控区的调重控功能从而影响线粒体基因组的复制和转录。