缅甸陆龟线粒体全基因组的测序及分析

本文参照近缘物种的线粒体基因组序列,设计17对特异引物,采用LD-PCR、PCR及测序技术获得了我国广西产缅甸陆龟的线粒体全基因组序列,分析了其基因组特点和各基因的定位。结果表明:缅甸陆龟线粒体基因组全长为16813bp,碱基组成为35.30%A、26.47%T、12.09%G、26.14%C,包括13个蛋白质编码基因、2个rRNA基因、22个tRNA基因和1个非编码基因控制区(D-Loop区)。缅甸陆龟线粒体基因组各基因长度、位置与典型的脊椎动物相似,其编码蛋白质区域和rRNA基因与其它脊椎动物具有很高的同源性,显示龟类线粒体基因组在进化上十分保守。将缅甸陆龟的线粒体基因组序列提交到GenBank,获得的检索号为DQ656607。本文还结合GenBank中已发表的其它16种龟鳖类动物的线粒体基因组序列,探讨龟鳖类动物不同科间的系统进化关系。     

小麂线粒体基因组全序列的测定和分析

通过建立麂属动物小麂线粒体DNA文库、鸟枪法测序,获得了小麂线粒体基因组全序列并对其基因组成、蛋白质的编码序列、tRNA基因等结构作了详细分析,这也是国内有关哺乳动物线粒体基因组全序列的首次报道。与其他哺乳动物线粒体基因组全序列的比较研究发现：全长为16 354bp的小麂线粒体基因组同样编码13种蛋白质、2种rRNA和22种tRNA,除了用于调控线粒体DNA复制和转录的D-Loop区以外,小麂线粒体基因组各基因长度、位置与其他哺乳动物相似,其编码蛋白质区域和rRNA基因与其他哺乳动物具有很高的同源性。     

北京鸭线粒体基因组全序列测定和分析

线粒体DNA作为遗传标记,已在家鸡(Gallus gallus)和家鹅(Anser anser)的研究中取得了重大进展,而对家鸭(Anas platyrhychos domesticus)的研究却很少.本研究参照近源物种线粒体基因组序列设计15对引物,通过PCR扩增、测序、拼接,获得北京鸭(A.platyrhychos)线粒体基因组全序列,初步分析其特点和各基因的定位.结果显示,北京鸭线粒体基因组全长16 604 bp,碱基组成为29.19%A、22.20%T、15.80%G、32.81%C,包含13个蛋白质编码基因、2个rRNA基因、22个tRNA基因和1个非编码控制区(D-loop),基因组成及排列顺序与其他鸟类相似.基于线粒体D-loop区全序列,用N-J法构建了7种雁形目鸟类系统进化树,结果表明,北京鸭与绿头鸭(A.platyrhychos)系统进化关系较近.     

中国狼（Canis lupus chanco）线粒体全基因组序列分析

参照近缘物种线粒体全基因组序列,设计14 对特异引物,采用PCR产物直接测序法测得中国狼线粒体基因组全序列,并分析其基因组特点和各基因的定位.用pDRAW32软件,预测12种限制性酶的酶切图谱.结果表明,中国狼线粒体基因组全长16 774 bp, 包括13 个蛋白质编码基因、2 个rRNA 基因、22 个tRNA 基因和1个非编码控制区.除ND2、 ND3和ND5 基因以ATA作为起始密码子外,其它基因的起始密码子均为ATG.除COXⅢ、 ND4、 ND3基因的终止密码子分别为不完全的T,T,TA;ND2,COXⅡ,Cytb基因的终止密码子分别是TAG、TAG、AGA外;其余基因均以TAA作为终止密码子,而欧亚狼和狗COXⅡ基因则以TAA终止.基于近缘哺乳动物15种近缘物种的线粒体基因组的12S rRNA 和 16S rRNA 基因全序列,用邻近法、最大简约法和最大似然法构建系统进化树,系统进化关系与传统的系统分类基本一致.并在已有文献的基础上,探讨了中国狼的进化地位.     

中国地鼠线粒体Cyt b基因测序及其分子进化

目的测定中国地鼠线粒体DNA细胞色素b基因部分序列,分析其分子系统进化关系。方法提取中国地鼠肝脏的总基因组DNA。设计合成特异引物进行PCR扩增,经检测进行测序。用Blast与GenBank中啮齿类其他常用实验动物的物种细胞色素b基因进行同源序列比较,分析其碱基组成及变异情况,并用邻接法、最大简约法、最小进化法构建了分子系统树,在分子水平上探讨中国地鼠和常用啮齿类实验动物的进化关系。结果获得了中国地鼠线粒体Cytb基因的部分序列,共936bp。结论中国地鼠和金黄地鼠的亲缘关系最近,与小鼠、大鼠存在的差异相对大,与豚鼠的亲缘关系最远,与传统的分类地位基本吻合。     

五种啮齿类动物mtDNA蛋白编码基因序列变化的比较

目的利用本实验室测定的中国地鼠、金黄地鼠和GenBank中田鼠、小鼠、大鼠的线粒体全基因组序列,比较分析五种啮齿类动物的mtDNA蛋白编码基因序列的变异,探讨其分子进化关系。方法将五种动物各自的13个蛋白编码基因分别连接成一个序列,用DNAstar-EditSeq分析软件计算每个序列的碱基长度和组成,计算蛋白编码基因的碱基和氨基酸的差异。以人为外群,基于连接在一起的13个蛋白编码基因的氨基酸序列,用MEGA4.0软件通过最大简约性法(MP)和非加权成对平均数法(UPGMA)构建进化树。结果在五种啮齿动物的13个蛋白基因序列中,A、T、C、G碱基的平均含量为32.4%、29.6%、26.2%和11.9%,中国地鼠mtDNA各蛋白编码序列以及其编码的氨基酸序列与其他物种相比,与金黄地鼠的相应序列差异最小,与大鼠mtDNA各蛋白编码序列以及其编码的氨基酸序列差异较大。分子进化树也显示中国地鼠和金黄地鼠的亲缘关系最近,与小鼠、大鼠存在的差异相对大。结论五种动物的碱基组成的百分比中显示G的相对缺乏,相互之间的进化关系与传统的分类地位基本吻合。     

乌龟线粒体全基因组序列和结构分析

龟鳖类同其它类群脊椎动物的系统进化关系一直存在争论。为进一步从分子水平上探讨这一问题,本文参照近源物种的线粒体基因组,设计了16对特异引物,采用PCR产物直接测序法测得了乌龟线粒体基因组全序列。结果表明:乌龟线粒体基因组序列全长16576bp,包括2个rRNA基因、22个tRNA基因、13个蛋白质编码基因和1个非编码控制区。乌龟线粒体基因组结构和基因排列顺序与其它龟鳖类相同,在“WANCY区”包含一个“stemloop”结构,ND3基因174位点存在一个额外插入的腺苷酸(A)。本文通过比较分析结构基因在主要脊椎动物类群中的排列顺序,探讨了龟鳖类与其它主要脊椎动物类群的系统进化关系     

孟加拉笛鲷线粒体基因组序列结构及其进化

采用Long-PCR扩增线粒体全基因组方法得到了孟加拉笛鲷线粒体基因组全序列.序列分析结果表明,孟加拉笛鲷线粒体基因组序列全长16 511 bp,共有13个编码蛋白质基因、22个tRNA基因、2个rRNA基因和1个D-loop区.在编码蛋白质基因中,除COⅠ是以GTG作为起始密码子外,其它均是以ATG起始,NDⅠ、COⅡ、ND3以TAG作为终止密码子,而ND4、Cyt b则以不完全的T为终止密码子,其余8个蛋白质基因的终止密码子均为TAA.孟加拉笛鲷线粒体基因组各基因长度、位置与典型的脊椎动物相似,其编码蛋白质基因和rRNA基因与其它硬骨鱼类具有很高的同源性.基于14种笛鲷线粒体区段COⅠ、COⅡ和Cyt b基因的全序列合并成的一个组合数据集构建系统进化树,显示孟加拉笛鲷与四带笛鲷关系最为密切.     

中国地鼠线粒体DNA 16S rRNA基因序列分析及分子系统发育研究

目的通过克隆分析中国地鼠16S基因的部分序列,对中国地鼠16S基因的结构和功能进行初步探索和揭示。方法从GenBank中已报道的啮齿动物16S基因保守区设计一对引物,进行PCR扩增,测序。用Blastn与GenBank中七种啮齿类动物的16S基因进行序列比较,分析其碱基组成及变异情况,并用邻接法(NJ)、非加权组平均法(UPGMA)构建分子系统树,在分子水平上探讨中国地鼠和其他啮齿类动物的进化关系,对中国地鼠的种属地位进行了进一步验证。结果获得了中国地鼠线粒体16S基因的部分序列,其碱基组成A、T、C、G分别为40.5%、24.5%、18.7%、16.3%,与其他七种啮齿类动物的碱基含量相比,各碱基含量基本相似。NJ进化树表明,中国地鼠、金黄地鼠与欧洲仓鼠先聚为一支,小鼠与大鼠先聚为一支,东方田鼠、台湾田鼠与东欧田鼠先聚为一支。结论中国地鼠和金黄地鼠的亲缘关系最近,与传统的分类地位基本吻合。     

中华鳖线粒体基因组序列分析

参照近源物种线粒体基因组序列,设计17对特异引物,采用PCR产物直接测序法测得中华鳖线粒体基因组全序列.初步分析其基因组特点和各基因的定位,用pDRAW32软件预测12种限制性酶对其的酶切图谱.结果表明,中华鳖线粒体基因组全长17364bp,核苷酸组成为35.23%A、27.26%T、25.73%C、11.78%G,包括13个蛋白质编码基因、2个rRNA基因、22个tRNA基因和1个非编码控制区.基于线粒体基因组编码的13个蛋白质的氨基酸序列,用NJ法和MP法构建系统进化树,分析6种龟鳖类动物之间的亲缘关系,与传统的系统分类基本一致,初步确定淡水龟科与海龟科的亲缘关系比与龟科的亲缘关系要近.     

The mitochondrial genome of Strongyloides stercoralis (Nematoda) - idiosyncratic gene order and evolutionary implications

The complete mitochondrial genome sequence of the parasitic nematode Strongyloides stercoralis was determined, and its organisation and structure compared with other nematodes for which complete mitochondrial sequence data were available. The mitochondrial genome of S. stercoralis is 13,758 bp in size and contains 36 genes (all transcribed in the clockwise direction) but lacks the atp8 gene. This genome has a high T content (55.9%) and a low C content (8.3%). Corresponding to this T content, there are 16 (poly-T) tracts of >/=12 Ts distributed across the genome. In protein-coding genes, the T bias is greatest (76.4%) at the third codon position compared with the first and second codon positions. Also, the C content is higher at the first (9.3%) and second (13.4%) codon positions than at the third (2%) position. These nucleotide biases have a significant effect on predicted codon usage patterns and, hence, on amino acid compositions of the mitochondrial proteins. Interestingly, six of the 12 protein-coding genes are predicted to employ a unique initiation codon (TTT), which has not yet been reported for any other animal mitochondrial genome. The secondary structures predicted for the 22 transfer RNA (trn) genes and the two ribosomal RNA (rrn) genes are similar to those of other nematodes. In contrast, the gene arrangement in the mitochondrial genome of S. stercoralis is different from all other nematodes studied to date, revealing only a limited number of shared gene boundaries (atp6-nad2 and cox2-rrnL). Evolutionary analyses of mitochondrial nucleotide and amino acid sequence data sets for S. stercoralis and seven other nematodes demonstrate that the mitochondrial genome provides a rich source of phylogenetically informative characters. In conclusion, the S. stercoralis mitochondrial genome, with its unique gene order and characteristics, should provide a resource for comparative mitochondrial genomics and systematics studies of parasitic nematodes.     

Mitochondrial genome sequence of the shining catfish (Pelteobagrus nitidus)

The complete mitochondrial DNA sequence of Pelteobagrus nitidus was determined using a PCR-based method. The total length of mitochondrial DNA is 16,532 bp. The contents of the P. nitidus mitochondrial genome are 13 protein-coding genes, two ribosomal RNA and 22 transfer RNA genes, and a non-coding control region. Base composition of the entire genome is A 31.72%, T 26.92%, C 26.45%, and G 14.91%, with an A+T (58.64%) rich feature as that of other vertebrate mitochondrial genome.     

Complete mitochondrial genome of the Walking goby Scartelaos histophorus (Perceformes, Gobiidae)

The Walking goby Scartelaos histophorus (Perciformes, Gobiidae) is an amphibious gobioid fish. In this paper, the complete mitochondrial genome of S. histophorus was first determined. The genome is 16,496 bp in length and consists of 13 protein-coding genes, 22 tRNA genes, 2 ribosomal RNA genes, and 1 control region. The overall base composition of S. histophorus is 27.5% for T, 28.0% for C, 28.3% for A, and 16.1% for G, with a slight A+T bias of 55.8%. It has the typical vertebrate mitochondrial gene arrangement.     

The complete mitochondrial genome of Solen strictus (Bivalvia: Solenidae)

In this paper, we determined the complete mitochondrial genome of Solen strictus (Bivalvia: Solenidae). The whole mitogenome of S. strictus is 16,535?bp in length with a base composition of 21.7% A, 41.0% T, 25.6% C, and 11.7% G and contains 12 protein-coding genes (atp8 is missing), 2 ribosomal RNA genes, 22 transfer RNA genes, and a major non-coding region (MNR). Some peculiar patterns including tandem repeats and microsatellite-like elements are found in the MNR of S. strictus.     

Complete mitochondrial genome of Trypauchen vagina (Perciformes, Gobioidei)

The complete mitochondrial genome of Trypauchen vagina was determined first. The genome is 16,686 bp in length and consists of 13 protein-coding genes, 22 tRNA genes, 2 ribosomal RNA genes, and 2 main non-coding regions [the control region (CR) and the origin of the light strand replication], the gene composition and order of which was similar to most other vertebrates. The overall base composition of T. vagina is T 27.6%, C 27.6%, A 29.5%, and G 15.3%, with a slight A+T bias of 57.1%. In addition to the discrete and conserved sequence blocks, an incomplete tandem repeat unit is detected within the CR. This mitogenome sequence data would play an important role in population genetics and phylogenetic analysis of the Gobioidei.     

Complete mitochondrial DNA sequence of the Japanese spiny lobster,Panulirus japonicus (Crustacea: Decapoda)

We determined the complete nucleotide sequence of the mitochondrial genome for a Japanese spiny lobster, Panulirus japonicus (Crustacea: Decapoda). The entire genome was amplified using long polymerase chain reaction, and the products were subsequently used as templates for direct sequencing using a primer-walking strategy. The genome (15,717 base pairs) contained the same 37 genes (two ribosomal RNA, 22 transfer RNA, and 13 protein-coding genes) plus the putative control region as found in other arthropods, with the gene order identical to that of typical arthropods. Preliminary phylogenetic analyses of selected arthropods using concatenated amino acid sequences of the 13 protein-coding genes strongly supported monophyly of Decapoda species and confidently rejected "Macroura", a conventional taxon that shares an elongated abdominal body.