白鱼线粒体DNA控制区结构和种群遗传多样性分析

用特异性引物对白鱼(Anabarilius grahami)DNA进行PCR扩增,获得了白鱼线粒体DNA控制区基因全序列(930bp)。控制区T、C、A和G碱基组成为29.8%、22.5%、33.0%和14.7%。对照其他已报道的鱼类控制区结构,对白鱼控制区结构进行了分析,识别了其终止序列区、中央保守区和保守序列区,找到了终止相关的序列TAS以及保守序列(CSB-F、CSB-D、CSB-1、CSB-2、CSB-3)。同时运用DNA分析软件对白鱼一个驯养种群(中国科学院昆明动物研究所珍稀鱼类繁育中心)及两个自然地理种群(江川县明星鱼洞、江川县牛摩村)进行了遗传多样性分析。结果显示:两个自然种群存在较强基因交流,未出现遗传分化;人工驯养种群遗传多样性最高,种群复壮程度较好。     

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。     

白鱼线粒体DNA控制区结构和种群遗传多样性分析

用特异性引物对白鱼（Anabarilius grahami）DNA进行PCR扩增,获得了白鱼线粒体DNA控制区基因全序列（930 bp）。控制区T、C、A和G碱基组成为29.8%、22.5%、33.0%和14.7%。对照其他已报道的鱼类控制区结构,对白鱼控制区结构进行了分析,识别了其终止序列区、中央保守区和保守序列区,找到了终止相关的序列TAS以及保守序列（CSB-F、CSB-D、CSB-1、CSB-2、CSB-3）。同时运用DNA分析软件对白鱼一个驯养种群（中国科学院昆明动物研究所珍稀鱼类繁育中心）及两个自然地理种群（江川县明星鱼洞、江川县牛摩村）进行了遗传多样性分析。结果显示：两个自然种群存在较强基因交流,未出现遗传分化;人工驯养种群遗传多样性最高,种群复壮程度较好。     

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。     

Structure of the Mitochondrial DNA Control Region of the Sinipercine Fishes and Their Phylogenetic Relationship

The mitochondrial DNA control region of Siniperca chuatsi, S. kneri, S. scherzeri, S. obscura, S. undulata, Coreosiniperca roulei and Coreoperca whiteheadi were amplified by PCR amplification and directly sequenced. The mtDNA control region of the sinipercine fishes could be separated into three domains, namely, the terminal associated sequence domain, the central conserved sequence domain and the conserved sequence block domain. The extended terminal associated sequence (ETAS), three conserved sequence blocks (CSB-F, CSB-E, CSB-D) in the central conserved sequence domain and three conserved sequence blocks (CSB1, CSB2, CSB3) in the conserved sequence block domain were also identified. The phylogenetic relationships among these sinipercine fishes were constructed through neighbor-joining and maximum parsimony methods using Percidae and Serranidae as outgroups. Results showed that sinipercine fishes were a monophyletic group, with Siniperca forming one group, and Coreoperca forming another group. Coreosiniperca roulei did not form an independent group but was merged into the genus Siniperca. Thus it should be renamed as Siniperca roulei.     

南蝠线粒体DNA控制区结构及贵州7个种群遗传多样性的分析研究

采用PCR技术获得了贵州7个南蝠(Ia io)自然种群42个个体的线粒体DNA控制区全序列,长度为1256～1340 bp.对控制区结构进行分析,识别了其延伸的终止结合序列区(包括ETAS1和ETAS2元件)、中央保守区(包括F、E、D、C、B元件)和保守序列区(包括CSB1、CSB2和CSB3元件);同时,在延伸的终止结合序列区还发现了若干能形成发夹结构的主体序列TACAT—ATGTA.在7个自然种群42个个体中共定义了16个单倍型.遗传多样性分析表明:贵州南蝠种群具有较高的单倍型多样性(h=0.945)和中等的核苷酸多样性(π=0.012).基因流、AMOVA和系统进化树分析表明贵州这7个南蝠自然群体间没有发生遗传分化.     

DNA sequence variation in the mitochondrial control region of red-backed voles (Clethrionomys)

The complete mitochondrial DNA (mtDNA) control region was sequenced for 71 individuals from five species of the rodent genus Clethrionomys both to understand patterns of variation and to explore the existence of previously described domains and other elements. Among species, the control region ranged from 942 to 971 bp in length. Our data were compatible with the proposal of three domains (extended terminal associated sequences [ETAS], central, conserved sequence blocks [CSB]) within the control region. The most conserved region in the control region was the central domain (12% of nucleotide positions variable), whereas in the ETAS and CSB domains, 22% and 40% of nucleotide positions were variable, respectively. Tandem repeats were encountered only in the ETAS domain of Clethrionomys rufocanus. This tandem repeat found in C. rufocanus was 24 bp in length and was located at the 5' end of the control region. Only two of the proposed CSB and ETAS elements appeared to be supported by our data; however, a "CSB1-like" element was also documented in the ETAS domain.     

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.     

齐口裂腹鱼线粒体DNA控制区结构分析

利用直接测序法对齐口裂腹鱼(Schizothorax prenanti)线粒体DNA控制区进行了测序,并对其序列结构进行了分析.结果表明,齐口裂腹鱼线粒体控制区碱基组成中碱基A和T的含A明显高于G和C的含量,所有类型碱基组成中碱基G的含量最低,这与其他硬骨鱼类控制区碱基组成一致.通过与哺乳类和鲤形目鱼类控制区序列进行对...     

鼬科动物线粒体DNA控制区结构分析

利用PCR技术获得紫貂(Martes zibellina)和黄喉貂(Martes flavigula)线粒体DNA控制区全序列,并结合从GenBank中下载的9种鼬科动物相应序列,用ClustalX排序后对控制区结构进行分析,识别出延长终止序列区、中央区和保守序列区3个区域,指出了一个终止相关序列ETAS1及8个保守序列(CSB-F、E、D、C、B、1、2和3),并给出了序列通式,在CSB1和CSB2之间发现不同形式的短重复序列.此外,以狼为外类群,应用邻接法构建鼬科线粒体控制区全序列的系统进化树,结果表明:臭鼬亚科最先从鼬科中分化出来,随后剩余类群分为两大支系,即貂属种类与貂熊聚为一支,并与獾亚科的狗獾形成姐妹群;另一支为水獭亚科的物种与鼬属的林鼬形成姐妹群,再与虎鼬聚在一起,狗獾与貂属的紫貂亲缘关系最近,水獭亚科与鼬属亲缘关系最近.     

Mitochondrial DNA structure and organization of the control region of South American camelids

This work presents the mitochondrial DNA molecular organization of the control region (CR) of South American camelids. Sequencing of five individuals each of guanaco, llama, alpaca and vicuna species showed that this region spans 1060 bp including three conserved sequence blocks (CSB I–III) adjacent to the tRNAPhe gene, a conserved central domain and one extended termination‐associated sequence in the 3′ domain of the CR close to the tRNAPro gene. A repeated array formed by three units of 26 bp was detected between CSB I and II. Alignment of the CR sequences from the four species shows a 337‐bp segment that includes most of the nucleotide variability with 10 polymorphic sites. We suggest the use of this segment as a molecular marker to infer data on camelid genetic relationships and population diversity studies.     

Lineage Specificity of the Evolutionary Dynamics of the mtDNA D-Loop Region in Rodents

This paper reports an intraorder study on the D-loop-containing region of the mitochondrial DNA in rodents. A complete multialignment of this region is not feasible with the exception of some conserved regions. The comparative analysis of 25 complete rodent sequences from 23 species plus one lagomorph has revealed that only the central domain (CD), a conserved region of about 80 bp in the extended termination-associated sequences (ETAS) domain, adjacent to the CD, the ETAS1, and conserved sequence block (CSB) 1 blocks are present in all rodent species, whereas the presence of CSB2 and CSB3 is erratic within the order. We have also found a conserved region of 90 bp located between tRNAPro and ETAS1 present in fat dormouse, squirrel, guinea pig, and rabbit. Repeated sequences are present in both the ETAS and the CSB domain, but the repeats differ in length, copy number, and base composition in different species. The potential use of the D-loop for evolutionary studies has been investigated; the presence/absence of conserved blocks and/or repeated sequences cannot be used as a reliable phylogenetic marker, since in some cases they may be shared by distantly related organisms but not by close ones, while in other ones a relationship between tree topology and presence/absence of such motifs is observed. Better results can be obtained by the use of the CD, which, however, due to its reduced size, when used for tracing a phylogenetic tree, shows some nodes with low statistical support. Received: 26 February 2001 / Accepted: 6 June 2001     

中国鲿科鱼类线粒体DNA控制区结构及其系统发育分析

采用PCR技术获得了中国鲿科鱼类代表种类线粒体DNA控制区基因的全序列,对控制区基因结构进行了分析,并选用粒鲇科的中华粒鲇,鮡科的三线纹胸鮡作为外类群,用最大简约法(MP)和邻接法(NJ)构建了系统发育树。结果显示鲿科鱼类中控制区基因适于系统发育分析,鲿科鱼类构成一个单系类群;圆尾拟鲿应该放入鮠属里。     

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.     

圆斑星鲽及相关种类线粒体DNA控制区结构分析

采用PCR产物直接测序法测定了圆斑星鲽(Verasper variegatus)的24个个体的线粒体控制区(Control region)核苷酸全序列, 并进行了结构分析。结果表明, 圆斑星鲽线粒体控制区核苷酸全序列具有长度多态性, 得到4种长度单元型, 主要表现为控制区中的串联重复序列的长度不同。对鲽形目鱼类如鲽科的条斑星鲽(Verasper moseri)、黄盖鲽(Limanda feruginea)、马舌鲽 (Reinhardtius hippoglossoides), 美洲拟庸鲽(Heppoglossoides platessoides )和鲆科的牙鲆(Paralichthys olivaceus)以及鳎科的欧洲鳎(Solea solea)、塞内加尔鳎(S. senegalensis)和沙鳎(S. lascari)的控制区的比较研究发现, 鲽形目鱼类的线粒体控制区均存在相似的结构, 即线粒体控制区可分为终止相关序列区(ETAS)、中央保守区(包括CSB-A、CSB-B、CSB-C、CSB-D、CSB-E、CSB-F)以及保守序列区(CSB1、CSB2、CSB3)和重复序列区(Repeat region)4个区域。通过与脊椎动物各个纲线粒体控制区序列的比较分析, 发现只有鲽形目(包括鲆、鲽类和鳎类)鱼类和两栖纲的无尾类在CSB-3之后存在相似的串联重复序列。     

Sequence and organization of the complete mitochondrial genomes of spotted halibut (Verasper variegatus) and barfin flounder (Verasper moseri).

In this work, the mitochondrial genomes for spotted halibut (Verasper variegatus) and barfin flounder (Verasper moseri) were completely sequenced. The entire mitochondrial genome sequences of the spotted halibut and barfin flounder were 17,273 and 17,588 bp in length, respectively. The organization of the two mitochondrial genomes was similar to those reported from other fish mitochondrial genomes containing 37 genes (2 rRNAs, 22 tRNAs and 13 protein-coding genes) and two non-coding regions (control region (CR) and WANCY region). In the CR, the termination associated sequence (ETAS), six central conserved block (CSB-A,B,C,D,E,F), three conserved sequence blocks (CSB1-3) and a region of 61-bp tandem repeat cluster at the end of CSB-3 were identified by similarity comparison with fishes and other vertebrates. The tandem repeat sequences show polymorphism among the different individuals of the two species. The complete mitochondrial genomes of spotted halibut and barfin flounder should be useful for evolutionary studies of flatfishes and other vertebrate species.     

大趾鼠耳蝠线粒体DNA控制区结构及变异

采用PCR产物直接测序法首次测定大趾鼠耳蝠(Myotis macrodactylus)10个个体的线粒体DNA(mtDNA)控制区全序列,并进行了结构和变异分析。结果表明,大趾鼠耳蝠的控制区结构与其他哺乳动物相似,可分为一个中央保守区(包括F、E、D、C、B元件)和两个外围结构域:延伸的终止结合序列区(包括ETAS1和ETAS2元件)和保守序列区(包括CSB1、CSB2和CSB3元件),其中最为保守的是中央保守区(核苷酸变异度为1.8%)。大趾鼠耳蝠控制区核苷酸全序列具有丰富的长度多态性(1778～2048bp),主要是由在碱基组成、重复数目和排列方式上异质的串联重复序列造成的。在ETAS内发现了TACAT及其反向互补序列ATGTA,支持滑移错配模式(slipped mispairing model)。本研究为该物种的进一步研究和保护提供基础遗传数据。     

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.     

The complete mitochondrial genome of Rhynchocypris oxycephalus (Teleostei: Cyprinidae) and its phylogenetic implications

Rhynchocypris oxycephalus (Teleostei: Cyprinidae) is a typical small cold water fish, which is distributed widely and mainly inhabits in East Asia. Here, we sequenced and determined the complete mitochondrial genome of R. oxycephalus and studied its phylogenetic implication. R. oxycephalus mitogenome is 16,609 bp in length (GenBank accession no.: MH885043), and it contains 13 protein‐coding genes (PCGs), two rRNA genes, 22 tRNA genes, and two noncoding regions (the control region and the putative origin of light‐strand replication). 12 PCGs started with ATG, while COI used GTG as the start codon. The secondary structure of tRNA‐Ser (AGN) lacks the dihydrouracil (DHU) arm. The control region is 943bp in length, with a termination‐associated sequence, six conserved sequence blocks (CSB‐1, CSB‐2, CSB‐3, CSB‐D, CSB‐E, CSB‐F), and a repetitive sequence. Phylogenetic analysis was performed with maximum likelihood and Bayesian methods based on the concatenated nucleotide sequence of 13 PCGs and the complete sequence without control region, and the result revealed that the relationship between R. oxycephalus and R. percnurus is closest, while the relationship with R. kumgangensis is farthest. The genus Rhynchocypris is revealed as a polyphyletic group, and R. kumgangensis had distant relationship with other Rhynchocypris species. In addition, COI and ND2 genes are considered as the fittest DNA barcoding gene in genus Rhynchocypris. This work provides additional molecular information for studying R. oxycephalus conservation genetics and evolutionary relationships.