云斑车蝗线粒体基因组全序列测定与分析

采用长距 PCR 扩增及保守引物步移法并结合克隆测序测定并注释了云斑车蝗 Gastrimargus marmoratus （Thunberg）的线粒体基因组全序列。结果表明：云斑车蝗线粒体基因组全序列为15 904 bp（GenBank登录号为EU527334）,A+T含量略高于非洲飞蝗Locusta migratoria,为76.04%,包括13个蛋白质编码基因,22个tRNA 基因,2个rRNA基因和一段1 057 bp的A+T富集区。蛋白质基因的起始密码子中,除COⅠ和ND5为TTG以外,均为昆虫典型的起始密码子ATN。ND5基因使用了不完全终止密码子T,其余基因均为典型的TAA或TAG。预测了22个tRNA基因的二级结构,发现tRNA^Ser（AGN）缺少DHU臂, tRNA^Ser（UGY）的反密码子环上有9个碱基。预测了云斑车蝗12S和16S rRNA二级结构,分别包括3个结构域30个茎环和6个结构域44个茎环。A+T富集区含有3个串联重复序列。     

地山雀线粒体基因组全序列的测定和分析

基于长距PCR扩增及保守引物步移法测定并注释了地山雀(Pseudopodoces humilis)的线粒体基因组全序列.结果表明,地山雀线粒体基因组全长1.6 809万bp,A+T含量为52.9%,37个基因排列顺序与红原鸡一致.蛋白质基因的起始密码子中,除COI基因为GTG外,其余均为ATG.NDⅠ和ND5基因终止密码子为AGA:COⅡ基凶为AGG:COⅢ和ND4基因为不完全终止密码子T;其余基因均为典型的TAA或TAG.预测了22个tRNA基闪的二级结构,发现tRNAScr(AGN)缺少DHU臂,tRNAPhe的TψC臂存在一单核苷酸插入.预测的地山雀12S和16S rRNA二级结构分别包括3个结构域47个茎环和6个结构域60个茎环. 控制区位于tRNAGlu和tRNAPhe之间,长度1240 bp.控制区结构为高变Ⅰ区、中央保守Ⅱ区和保守序列Ⅲ区3个结构域.     

红足壮异蝽Urochela quadrinotata Reuter线粒体基因组的测定与分析

研究测定并分析了红足壮异蝽Urochela quadrinotata Reuter的线粒体基因组全序列。该线粒体基因组全长16585bp(GenBank登录号为JQ743678),A+T含量为75.4%,共编码35个基因,包括13个蛋白质基因、20个tRNA基因(两个tRNA基因,即tRNAIle和tRNAGln未被检测到)、2个rRNA基因及一段较长的非编码区(控制区,亦称A+T富含区)。基因排序与大部分昆虫的线粒体基因排列方式相同,没有发生基因重排。除tRNASer(AGN)的DHU臂无法形成典型的茎环结构,其余tRNA基因均能稳定形成典型的三叶草二级结构。预测了红足壮异蝽16S和12S rRNA的二级结果,分别包括6个结构域43个茎环和3个结构域27茎环。控制区含一个长1652bp的串联重复区域,由16个串联重复单元组成。     

黑尾地鸦线粒体基因组序列测定与分析

采用长PCR扩增的线粒体DNA和引物步移法, 测定并注释了中国特有鸟类-黑尾地鸦(Podoces hendersoni)的线粒体基因组全序列。黑尾地鸦的mtDNA序列全长16 867 bp, GenBank登录号GU592504。基因含量和排列次序与原鸡的一致, 包含13个蛋白编码基因、22个tRNA、2个rRNA和1个控制区(D-loop)。除COI基因以GTG作为起始密码子外, 其余12个蛋白质编码基因均以典型ATG密码子起始。11个蛋白编码基因以完全终止密码子TAA、AGG或AGA终止, COIII和ND4基因终止密码子为不完整的T。tRNA^Ser(AGY)的DHU臂缺失, tRNA^Leu(CUN)的反密码子环由9个碱基构成, 而不是标准的7个碱基。其余的20个tRNA基因的二级结构均属典型的三叶草结构。预测了rRNA的二级结构, 其中, 12S rRNA二级结构包含4个结构域, 43个茎环结构; 16S rRNA的二级结构包含6个结构域, 55个茎环结构。此外, 在其他鸟类控制区中所发现的F-box、D-box、C-box、B-box、Bird similarity-box和CSB1-box也同样存在于黑尾地鸦中。     

太平洋鳕线粒体全基因组测序及结构特征分析

通过二代基因测序技术获得太平洋鳕(Gadus macrocephalus)线粒体基因组全序列, 对线粒体基因进行了注释, 对其序列结构进行了分析。研究结果表明, 太平洋鳕线粒体基因组全长16569 bp, 共编码13个蛋白质, 并且包含了22个tRNA, 2个rRNA以及1个D-Loop区。碱基组成存在明显的AT偏向和弱AT负偏斜现象。太平洋鳕线粒体在蛋白质编码基因中共有5种终止密码子, 包含哺乳动物线粒体常见终止密码子AGG与AGA。除tRNA-Ser(GCT)基因缺失二氢尿嘧啶臂(DHU臂)外, 其余tRNA均能形成典型的三叶草结构。D-Loop区只存在与终止结合序列区(Terminal associated sequences, TAS)和保守序列框(Conserved sequences blocks, CSB)功能类似的序列, 并且出现17 bp的嘧啶序列。非编码区含有一段保守的控制轻链复制起始的序列(O_L)及一段74 bp的基因间隔区。基于线粒体基因组全序列和Cytb基因, 分别构建了鳕形目下几种鳕的进化树, 结果为揭示太平洋鳕进化地位提供了重要依据。     

银色裂腹鱼线粒体基因组序列特征与系统进化分析

银色裂腹鱼(Schizothorax argentatus)在我国仅分布于新疆地区的伊犁河流域,是我国裂腹鱼类中珍稀濒危品种之一,具有较高的科研和经济价值。本研究采用高通量测序技术获得了银色裂腹鱼长度为16580 bp的线粒体基因组全序列,其基因组成和排列顺序均与典型的脊椎动物相似,共有13个蛋白质编码基因、22个tRNA基因、2个rRNA基因和1个非编码区(D-loop)。碱基组成分别为A(30.25%)、G(17.28%)、C(27.20%)和T(25.27%),呈现明显的AT偏好性和反G偏倚。tRNA基因中仅tRNA-Ser(GCU)因缺少二氢尿嘧啶茎而无法形成典型的三叶草结构。ND6基因的AT-skew和GC-skew值波动最大,揭示该基因经历的选择和突变压力可能与其他基因不同。银色裂腹鱼线粒体控制区包含了3个不同的结构域:终止序列区(ETAS)、中央保守区(CSB-F、CSB-E、CSB-D和CSB-B)和保守序列区(CSB1、CSB2和CSB3),且在CSB3下游约50 bp处识别到鲤形目(Cypriniformes)鱼类中普遍存在的保守序列片段TT(AT)nGTG。基于28种裂腹鱼属鱼类线粒体基因组全序列构建的系统发育关系表明银色裂腹鱼分化时间较早,与其他类群亲缘关系较远,这可能与其所生活的水域地理位置和水文环境有密切关系。     

短额负蝗线粒体基因组及其lrRNA和srRNA二级结构分析

采用长距PCR扩增及保守引物步移法测定并注释了短额负蝗的线粒体基因组全序列。结果表明，短额负蝗的线粒体基因组全长15 558 bp，A+T含量为74.3%，37个基因位置与飞蝗的一致，基因间隔序列共计11处64 bp，间隔长度从1～16 bp不等；有15对基因间存在51 bp重叠，重叠碱基数在1～8 bp之间。13个蛋白质编码基因中找到6种可能的起始密码子，有12个基因在基因3＇端能找到完全的TAA或TAG终止密码子，只有ND5基因终止密码子为不完整的TA。除tRNA^Ser（AGN）外，其余21个tRNA基因的二级结构均属典型的三叶草结构。tRNA^Ser（AGN）的DHU臂缺失，在相应的位置上只形成一个环。预测的lrRNA二级结构总共有6个结构域（结构域Ⅲ缺失），49个茎环结构。预测的srRNA的二级结构包含3个结构域，33个茎环结构。A+T丰富区中存在一个被认为与复制及转录起始有关的Ploy（T）（T-stretch）结构。     

麦穗鱼线粒体基因组序列测定及分析

利用麦穗鱼Pseudorasbora parva和相关鱼类的部分线粒体基因序列,设计出2对长批引物和30对短批引物,采用基于长PCR的2次PCR扩增法测定并注释麦穗鱼线粒体基因组全序列。结果表明,麦穗鱼线粒体基因组长16600bp,A+T含量为58.9%,37个基因位置及组成与其它硬骨鱼一致,均由13个蛋白编码基因、22个tRNA、2个rRNA基因和1个控制区(D-loop)组成。其中L链仅含8个tRNA(Pro、T yr、Ser、Ala、Asn、Cys、Glu、Gln)及ND6基因,其余基因皆由H链编码。基因排列紧密,间隔序列共计13处64bp,长度从1～32bp不等;基因重叠区7处23bp,重叠碱基数在1～7bp之间。13个蛋白编码基因中,除COI起始密码子为GTG外,其余均以ATG为起始密码子;有8个基因(ND1、ND2、COI、ATP6、ATP8、ND4L、ND5、ND6)3’端有完全的TAA或TAG终止密码子,其它5个基因终止密码子为不完整的TA(ND3和ND4)或T(COⅡ,COⅢ,Cyt b)。除tRNASer(AGY)外,其余21个tRNA基因的二级结构均为典型的三叶草结构。预测的lrRNA二级结构共有6个结构域,53个茎环结构,srRNA二级结构包含43个茎环结构。控制区(D-loop)存在3个结构区:终止序列区(TAS)、中央保守区(CSB-F、CSB-D)和保守序列区(CSB-1、CSB-2、CSB-3),其中TAS与DNA复制终止相关,出现茎环结构。     

棕头鸥线粒体基因组全序列测定与分析

基于长距PCR扩增及保守引物步移法测定并注释了棕头鸥(Larus brunnicephalus)的线粒体基因组全序列。结果表明,棕头鸥线粒体基因组全长16 769 bp,GenBank登录号JX155863。基因含量和排列次序与红原鸡一致,包含13个蛋白编码基因、22个tRNA、2个rRNA和一个D-loop区(控制区)。除COI基因以GTG、ND3基因以ATT为起始密码子外,其余11个蛋白质编码基因均以ATG起始。11个蛋白质编码基因以典型的完全终止密码子AGG、TAG、TAA或AGA终止,COIII和ND4基因为不完全终止密码子T。预测了22个tRNA基因的二级结构,发现tRNASer(AGN)缺少DHU臂,tRNAPhe的TψC臂出现第4种排列形式。预测的棕头鸥12S和16S rRNA二级结构分别包括4个结构域47个茎环和6个结构域60个茎环。其他鸟类控制区发现的F-box、E-box、D-box、C-box、B-box、Bird similarity-box和CSB-boxes(1-3)也存在于棕头鸥中,预测了控制区H链复制起始序列OH和双向复制起始序列LSP/HSP。系统发育分析支持将棕头鸥划归为面具鸥族(Masked gulls)。     

SEQUENCE AND ANALYSIS OF COMPLETE MITOCHONDRIAL GENOME OF PSEUDORASBORA PARVA

利用麦穗鱼Pseudorasbora parva和相关鱼类的部分线粒体基因序列,设计出2对长批引物和30对短批引物,采用基于长PCR的2次PCR扩增法测定并注释麦穗鱼线粒体基因组全序列.结果表明,麦穗鱼线粒体基因组长16600 bp,A+T含量为58.9％,37个基因位置及组成与其它硬骨鱼一致,均由13个蛋白编码基因、22个tRNA、2个rRNA基因和1个控制区(D-loop)组成.其中L链仅含8个tRNA(Pro、Tyr、Ser、Ala、Asn、Cys、Glu、Gln)及ND6基因,其余基因皆由H链编码.基因排列紧密,间隔序列共计13处64 bp,长度从1～32 bp不等;基因重叠区7处23 bp,重叠碱基数在1～7bp之间.13个蛋白编码基因中,除COI起始密码子为GTG外,其余均以ATG为起始密码子;有8个基因(ND1、ND2、COI、ATP6、ATP8、ND4L、ND5、ND6)3端有完全的TAA或TAG终止密码子,其它5个基因终止密码子为不完整的TA (ND3和ND4)或T(COⅡ,COⅢ,Cyt b).除tRNAser(AGY)外,其余21个tRNA基因的二级结构均为典型的三叶草结构.预测的lrRNA二级结构共有6个结构域,53个茎环结构,srRNA二级结构包含43个茎环结构.控制区(D-loop)存在3个结构区:终止序列区(TAS)、中央保守区( CSB-F、CSB-D)和保守序列区(CSB-1、CSB-2、CSB-3),其中TAS与DNA复制终止相关,出现茎环结构.     

Complete mitochondrial genome sequence of the Korean water deer Hydropotes inermis argyropus (Cervidae, Capreolinae)

The complete mitochondrial genome sequence of Hydropotes inermis argyropus consists of 13 protein-coding, 22 tRNA, and two rRNA genes, and 1 control region (CR). Three overlaps among the 13 protein-coding genes were found: ATP8/ATP6, ND4L/ND4, and ND5/ND6. The CR was located between the tRNA-Pro and tRNA-Phe genes and is 928 bp in length. The typical conserved domains, such as TAS and CSB, were identified in the CR.     

兰州鲇线粒体Cytb基因的克隆与序列分析

为克隆兰州鲇（Silurus lanzhouensis）线粒体Cytb基因全序列,根据欧洲鲇（Silurus glanis）线粒体基因全序列设计特异引物进行兰州鲇线粒体Cytb基因的PCR扩增,得到1138 bp兰州鲇线粒体Cytb基因序列。对兰州鲇和其他13种鱼的线粒体Cytb基因核苷酸和氨基酸序列之间进行同源性比较,结果显示具有较高的同源性,核苷酸同源性介于61.38%-91.12%,氨基酸同源性介于76.62%-95.52%。对兰州鲇、欧洲鲇、大口鲇（Silurus meridionalis）、鲇（Silurus asotus）、越南鲇（Silurus cochinchinensis）的Cytb基因之间进行碱基替代分析,结果显示兰州鲇Cytb基因与鲇之间替换率最低,值为8.87%,转换/颠换值为3.21;与越南鲇之间替换率最高,值为14.41%,转换/颠换值为1.83。对本文克隆的兰州鲇Cytb基因与王庆容等测定的兰州鲇线粒体Cytb序列进行序列差异分析,结果显示两者之间替换率为11.16%,存在127个变异位点,转换/颠换比为4.08,遗传距离为0.1230。由NJ法基于兰州鲇和其他13种鱼的Cytb基因序列构建的系统进化树,结果显示与传统的分类地位基本吻合。       

DNA sequence variation in the mitochondrial control region of subterranean mole rats,Spalax ehrenbergi superspecies,in Israel

The complete mitochondrial control region was sequenced for 60 individuals representing different populations for each of the four species of the subterranean mole rat Spalax ehrenbergi superspecies in Israel: Spalax galili (2n = 52), S. golani (2n = 54), S. carmeli (2n = 58), and S. judaei (2n = 60). The control region of all species and populations is very similar both in length (979 to 983 bp) and in base composition. As in agreement with previous surveys on mitochondrial control regions on mammals, the mole rat control region can be divided into a central domain and two flanking domains, ETAS (extended termination associated sequences) and CSB (conserved sequence blocks). Along with the common conserved blocks found in these domains (ETAS1, ETAS2, CSB1, CSB2, and CSB3), we have also detected in all individuals an ETAS1-like and a CSB1-like element, both in the ETAS domain. The most conserved region was the central domain, followed by the CSB and ETAS domains, showing important differences in the four species analyzed. Phylogenetic analysis supported the existence of two clades. One clade contained individuals belonging to Spalax galili (2n = 52) and S. golani (2n = 54), separated in two different branches depending on the species. The other clade contained individuals belonging to S. carmeli (2n = 58) and S. judaei (2n = 60) mixed together, suggesting a more recent event of speciation. Within species we have observed a southward trend of increasing variability. These results have been explained as a consequence of the adaptation of the species to ecological factors such as aridity and temperature stresses.     

Mitochondrial genome of the eurasian otterLutra lutra (Mammalia, Carnivora, Mustelidae)

We determined the complete mitochondrial genome of the Eurasian otterLutra lutra, which is an endangered species in Korea. The circle genome (16,536 bp in size) consists of 13 protein-coding, 22 tRNA, and 2 rRNA genes, and a control region, as found in other metazoan animals. Out of the 37 genes, 28 are encoded on the H-strand, and the nine (ND6 and 8 tRNA genes) on the L-strand. Three overlaps among the 13 protein-coding genes were found: ATP8-ATP6, ND4L-ND4, and ND5-ND6. A control region (1090 bp) including the origin of H-strand replication (OH), TAS (a conserved motif TACAT-16bp-ATGTA) and CSB (CSB-1, CSB-2. and CSB-3) was observed between tRNA-Pro and tRNA-Phe genes, and O_L, with 36 highly conserved nucleotides between tRNA-Asn (N) and tRNA-Cys (C) within a cluster of five tRNA genes (WANCY), as typically found in vertebrates. The other important characteristics of theL. lutra mitochondrial genome were described in detail. In addition, a maximum likelihood and Bayesian trees of 9 mustelid species and 1 outgroup were reconstructed based on the nucleotide sequences of 11 protein-coding genes excluding ATP8 and ND6. It showed that Lutrinae formed a monophyletic group with Mustelinae that is not monophyletic. Within the subfamily Lutrinae,L. lutra andEnhydra lutris were grouped together and thenLontra canadentis placed as a sister of the clade. The present result is the first complete mitochondrial genome sequence reported from the genusLutra, and is applicable to molecular phylogenetic, phylogeographic, conservation biological studies for mustelid members. In particular, exploration of sequence variations of the control region may be helpful for analyzing inter-and intra-species variations in the genusLutra.     

Structure of mitochondrial DNA control region of Fenneropenaeus chinensis and phylogenetic relationship among different populations

This paper deals with the structure of mitochondrial DNA control region of Fenneropenaeus chinensis. The termination-associated sequence (TAS), cTAS, CSB-D-CSB-F, and CSB-1 are detected in the species. The results indicate that the structures of these parts are similar to those of most marine organisms. Two conserved regions and many stable conserved boxes are found in the extended TAS area, central sequences blocks, and conserved sequences blocks (CSBs). This is the special character of F. chinensis. All the mtDNA control region sequences do not have CSB2 and CSB3 blocks, which is quite different from most vertebrates. In addition, the complete mtDNA control region sequences are used to analyze the phylogenetic relationships of F. chinensis. The phylogenetic trees show a lack of genetic structure among populations, which is similar to many previous studies.     

The complete mitochondrial genome of dhole <Emphasis Type="Italic">Cuon alpinus</Emphasis>: phylogenetic analysis and dating evolutionary divergence within canidae

The dhole (Cuon alpinus) is the only existent species in the genus Cuon (Carnivora: Canidae). In the present study, the complete mitochondrial genome of the dhole was sequenced. The total length is 16672 base pairs which is the shortest in Canidae. Sequence analysis revealed that most mitochondrial genomic functional regions were highly consistent among canid animals except the CSB domain of the control region. The difference in length among the Canidae mitochondrial genome sequences is mainly due to the number of short segments of tandem repeated in the CSB domain. Phylogenetic analysis was progressed based on the concatenated data set of 14 mitochondrial genes of 8 canid animals by using maximum parsimony (MP), maximum likelihood (ML) and Bayesian (BI) inference methods. The genera Vulpes and Nyctereutes formed a sister group and split first within Canidae, followed by that in the Cuon. The divergence in the genus Canis was the latest. The divarication of domestic dogs after that of the Canis lupus laniger is completely supported by all the three topologies. Pairwise sequence divergence data of different mitochondrial genes among canid animals were also determined. Except for the synonymous substitutions in protein-coding genes, the control region exhibits the highest sequence divergences. The synonymous rates are approximately two to six times higher than those of the non-synonymous sites except for a slightly higher rate in the non-synonymous substitution between Cuon alpinus and Vulpes vulpes. 16S rRNA genes have a slightly faster sequence divergence than 12S rRNA and tRNA genes. Based on nucleotide substitutions of tRNA genes and rRNA genes, the times since divergence between dhole and other canid animals, and between domestic dogs and three subspecies of wolves were evaluated. The result indicates that Vulpes and Nyctereutes have a close phylogenetic relationship and the divergence of Nyctereutes is a little earlier. The Tibetan wolf may be an archaic pedigree within wolf subspecies. The genetic distance between wolves and domestic dogs is less than that among different subspecies of wolves. The domestication of dogs was about 1.56–1.92 million years ago or even earlier.     

鳜类鱼类的线粒体DNA控制区结构及其系统发育分析

鳜类为低等鲈形目鱼类,是东亚特有类群。然而,关于其系统位置、分类以及一些物种的有效性等尚有争议。采用PCR扩增直接测序的方法,获得了鳜、大眼鳜、斑鳜、暗鳜、波纹鳜、长体鳜、中国少鳞鳜线粒体DNA控制区基因的序列。对比其他已报道鱼类控制区的结构识别序列,对鳜类鱼类控制区的结构进行了分析,识别了终止序列区、中央保守区和保守序列区,并找到了DNA复制终止相关的序列ETAS和中央保守区的保守序列CSB-F、CSB-E、CSB-D以及保守序列区的保守序列CSB1、CSB2、CSB3。几种鳜鱼间共有191个变异位点,其中,终止序列区的变异最高,占总变异的61．3％,中央保守区和保守序列区占总变异的38．7％。这一结果可为全面了解鱼类线粒体DNA控制区的结构特征提供资料。同时,利用高度变异的控制区序列,以鲈科和错科作为外群,使用邻接法和最大简约法构建了这几种鳜鱼的系统发育树。结果表明：鳜类为一单系类群,鳜、大眼鳜、斑鳜、暗鳜、波纹鳜、长体鳜构成一支鳜鱼群,其中,鳜与大眼鳜为姐妹种;中国少鳞鳜为另一支少鳞鳜群;长体鳜未单独成一支,而是聚入鳜鱼群内,应更名为Siniperca roulei。研究结果支持将现生鳜类分为两个类群的观点。