The complete mitochondrial genome of silver croaker Argyrosomus argentatus (Perciforems; Sciaenidae): genome characterization and phylogenetic consideration

The complete mitochondrial genome sequence of the silver croaker, Argyrosomus argentatus, was obtained by using LA-PCR and sequencing. The mitogenome is 16485 bp in length, consists of 13 protein-coding genes, two ribosomal RNAs, 22 transfer RNAs, and a non-coding control region like those found in other vertebrates, with the gene order similar to that of typical teleosts. Most of the genes of A. argentatus were encoded on the H-strand, while the ND6 and eight tRNA (Gln, Ala, Asn, Cys, Tyr, Ser (UCN), Glu and Pro)) genes were encoded on the L-strand. The reading frames of two pairs of genes overlapped: ATPase8 and 6 and ND4L and ND4 by ten and seven nucleotides, respectively. The origin of L-strand replication in A. argentatus was in a cluster of five tRNA genes (WANCY) and was 46 nucleotides in length. The conserved motif (5'-GCGGG-3') was found at the base of the stem within the tRNA(Cys) gene. Within the control region, we identified all of the conserved motifs except for CSB-F.     

The complete mitochondrial genome of silver croaker <Emphasis Type="Italic">Argyrosomus argentatus</Emphasis> (Perciforems; Sciaenidae): Genome characterization and phylogenetic consideration

The complete mitochondrial genome (mitogenome) sequence of the silver croaker, Argyrosomus argentatus, was obtained by using LA-PCR and sequencing. The mitogenome is 16485 bp in length, consists of 13 protein-coding genes, two ribosomal RNAs, 22 transfer RNAs, and a non-coding control region like those found in other vertebrates, with the gene order similar to that of typical teleosts. Most of the genes of A. argentatus were encoded on the H-strand, while the ND6 and eight tRNA (Gln, Ala, Asn, Cys, Tyr, Ser (UCN), Glu and Pro) genes were encoded on the L-strand. The reading frames of two pairs of genes overlapped: ATPase8 and 6 and ND4L and ND4 by ten and seven nucleotides, respectively. The origin of L-strand replication in A. argentatus was in a cluster of five tRNA genes (WANCY) and was 46 nucleotides in length. The conserved motif (5′-GCGGG-3′) was found at the base of the stem within the tRNA^Cys gene. Within the control region, we identified all of the conserved motifs except for CSB-F.     

The complete mitochondrial genome of the marbled rockfish Sebastiscus marmoratus (Scorpaeniformes, Scorpaenidae): genome characterization and phylogenetic considerations

The complete mitochondrial genome sequence of the marbled rockfish Sebastiscus marmoratus (Scorpaeniformes, Scorpaenidae) was determined and phylogenetic analysis was conducted to elucidate the evolutionary relationship of the marbled rockfish with other Sebastinae species. This mitochondrial genome, consisting of 17301 bp, is highly similar to that of most other vertebrates, containing the same gene order and an identical number of genes or regions, including 13 protein-coding genes, two ribosomal RNAs, 22 transfer RNAs, and one putative control region. Most of the genes are encoded on the H-strand, while the ND6 and seven tRNA genes (for Gln, Ala, Asn, Tyr, Ser (UCA), Glu, and Pro) are encoded on the L-strand. The reading frame of two pairs of genes overlapped on the same strand (the ATPase 8 and 6 genes overlapped by ten nucleotides; ND4L and ND4 genes overlapped by seven nucleotides). The possibly nonfunctional light-strand replication origin folded into a typical stem-loop secondary structure and a conserved motif (5'-GCCGG-3') was found at the base of the stem within the tRNA(Cys) gene. An extent termination-associated sequence (ETAS) and conserved sequence blocks (CSB) were identified in the control region, except for CSB-1; unusual long tandem repeats were found at the 3' end of the control region. Phylogenetic analyses supported the view that Sebastinae comprises four genera (Sebates, Hozukius, Helicolenus, and Sebasticus).     

The complete mitochondrial genome of the marbled rockfish <Emphasis Type="Italic">Sebastiscus marmoratus</Emphasis> (Scorpaeniformes,Scorpaenidae): Genome characterization and phylogenetic considerations

The complete mitochondrial genome sequence of the marbled rockfish Sebastiscus marmoratus (Scorpaeniformes, Scorpaenidae) was determined and phylogenetic analysis was conducted to elucidate the evolutionary relationship of the marbled rockfish with other Sebastinae species. This mitochondrial genome, consisting of 17301 bp, is highly similar to that of most other vertebrates, containing the same gene order and an identical number of genes or regions, including 13 protein-coding genes, two ribosomal RNAs, 22 transfer RNAs, and one putative control region. Most of the genes are encoded on the H-strand, while the ND6 and seven tRNA genes (for Gln, Ala, Asn, Tyr, Ser (UCA), Glu, and Pro) are encoded on the L-strand. The reading frame of two pairs of genes overlapped on the same strand (the ATPase 8 and 6 genes overlapped by ten nucleotides; ND4L and ND4 genes overlapped by seven nucleotides). The possibly nonfunctional light-strand replication origin folded into a typical stem-loop secondary structure and a conserved motif (5′-GCCGG-3′) was found at the base of the stem within the tRNA^Cys gene. An extent termination-associated sequence (ETAS) and conserved sequence blocks (CSB) were identified in the control region, except for CSB-1; unusual long tandem repeats were found at the 3′ end of the control region. Phylogenetic analyses supported the view that Sebastinae comprises four genera (Sebastes, Hozukius, Helicolenus, and Sebastiscus).     

Complete mitochondrial genome sequence of Catla catla and its phylogenetic consideration

Complete nucleotide sequence of mitochondrial genome (mitogenome) of the Catla catla (Ostariophysi: Cypriniformes: Cyprinidae) was determined in the present study. Its length is 16,594 bp and contains 13 protein coding genes, 22 transfer RNAs, two ribosomal RNAs and one non-coding control region. Most of the genes were encoded on the H-strand, while the ND6 and eight tRNA (Gln, Ala, Asn, Cys, Tyr, Ser (UCN), Glu and Pro) genes were encoded on the L-strand. The reading frames of two pair of genes overlapped: ATPase 8 with 6 and ND4L with ND4 by seven nucleotides each. The main non-coding region was 929 bp, with three conserved sequence blocks (CSB-I, CSB-II, and CSB-III) and an unusual simple sequence repeat, (TA)₇. Phylogenetic analyses based on complete mitochondrial genome sequences were in favor of the traditional taxonomy of family Cyprinidae. In conclusion present mitogenome of Catla catla adds more information to our understanding of diversity and evolution of mitogenome in fishes.     

The mitochondrial genome of the spinyhead croaker Collichthys lucida: genome organization and phylogenetic consideration

The complete mitochondrial genome of the spiny head croaker Collichthys lucida was determined in the present study. The mitochondrial DNA was 16,442 base pairs in length, and contained 13 protein coding genes, 22 transfer RNAs, 2 ribosomal RNAs, and one major non-coding control region, with the content and order of genes being similar to those in typical teleosts. Most of the genes of C. lucida were encoded on the H-strand, while the ND6 and eight tRNA (Gln, Ala, Asn, Cys, Tyr, Ser (UCN), Glu and Pro) genes were encoded on the L-strand. The reading frames of two pairs of genes overlapped: ATPase 8 and 6 and ND4L and ND4 by ten and seven nucleotides, respectively. The control region was unusually short at only 768bp, and absence of typical conserved blocks (CSB-D, CSB-E, and CSB-F). Phylogenetic analyses indicated that C. lucida was located in the cluster of fish species from the family Sciaenidae, supporting the traditional taxonomic classification of fish, and in the cluster of Serranidae, the divergence time in Plectropomus leopardus is longer than that among its coordinal species. On the other hand, phylogenetic analyses do not support the monophyletic of family Centracanthidae and genera Larimichthys and Collichthys, which is against the morphological results.     

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.     

三斑海马线粒体基因组核苷酸全序列结构与分析

通过PCR扩增并测序获得了三斑海马(Hippocampus trimaculatus)线粒体DNA(mt DNA)全序列。三斑海马线粒体基因组全序列长度为16 534 bp(Gen Bank登录号为KJ956892),编码37个基因,包括13个蛋白编码基因、22个t RNA基因和2个r RNA基因。非编码区域包括1个控制区(D-loop)及一个轻链复制起始区域。大部分基因由H-链编码,包括14个t RNA基因、2个r RNA基因、12个蛋白编码基因;只有ND6和8个t RNA基因是在L-链编码。预测的22个t RNA基因的二级结构均为典型的三叶草状。基因间隔一般1~14 bp不等。此外,还存在7处碱基重叠,其中,4处是鱼类和脊椎动物典型的基因重叠位点。总的碱基含量分别为,A 32.7%,C 23.4%,G 14.6%,T 29.3%,A+T含量为62.0%。其线粒体基因组序列的结构与脊椎动物的典型结构近似。邻接法和贝叶斯法构建的三斑海马系统进化树的拓扑结构相似,这与现有的三斑海马的系统演化地位一致。本研究为海马的进化研究以及保护工作提供了基础数据。     

A Novel Mitochondrial Genome Organization for the Blue Mussel, Mytilus Edulis

The sequence of 13.9 kilobases (kb) of the 17.1-kb mitochondrial genome of Mytilus edulis has been determined, and the arrangement of all genes has been deduced. Mytilus mitochondrial DNA (mtDNA) contains 37 genes, all of which are transcribed from the same DNA strand. The gene content of Mytilus is typically metazoan in that it includes genes for large and small ribosomal RNAs, for a complete set of transfer RNAs and for 12 proteins. The protein genes encode the cytochrome b apoenzyme, cytochrome c oxidase (CO) subunits I-III, NADH dehydrogenase (ND) subunits 1-6 and 4L, and ATP synthetase (ATPase) subunit 6. No gene for ATPase subunit 8 could be found. The reading frames for the ND1, COI, and COIII genes contain long extensions relative to those genes in other metazoan mtDNAs. There are 23 tRNA genes, one more than previously found in any metazoan mtDNA. The additional tRNA appears to specify methionine, making Mytilus mtDNA unique in having two tRNA(Met) genes. Five lengthy unassigned intergenic sequences are present, four of which vary in length from 79 to 119 nucleotides and the largest of which is 1.2 kb. The base compositions of these are unremarkable and do not differ significantly from that of the remainder of the mtDNA. The arrangement of genes in Mytilus mtDNA is remarkably unlike that found in any other known metazoan mtDNA.     

Complete mitochondrial genome of the dotted gizzard shad Konosirus punctatus (Teleostei, Clupeidae)

The complete mitochondrial genome of the dotted gizzard shad Konosirus punctatus (Teleostei, Clupeidae) has been determined. The entire sequence is 16,706 bp in length, with a gene content (13 protein-coding genes, 2 ribosomal RNAs, 22 transfer RNAs and 1 control region) and organization similar to that observed in most other vertebrates. Overall base composition of the light strand was represented as 25.8% of A, 29.0% of C, 25.1% of T and 20.1% of G. With the exception of ND6 and eight tRNA genes, all other mitochondrial genes are encoded on the heavy strand. Tandem repeat sequences were observed in the control region, indicating a useful marker for population genetic studies.     

The complete sequence of the mitochondrial genome of the Chinook salmon, Oncorhynchus tshawytscha

The complete sequence of the mitochondrial genome of Chinook salmon, Oncorhynchus tshawytscha, has been determined. The circular genome consisting of 16,644 base pairs encodes thirteen proteins, the 12S and 16S ribosomal RNAs, and 22 transfer RNAs. These genes are ordered in the same way as most other vertebrates. The nucleotide and amino acid sequences of the ribosomal RNAs and the thirteen protein-coding genes were compared with those of other salmonids such as Oncorhynchus mykiss, Salmo salar, Salvelinus fontinalis, Salvelinus alpinus and Coregonus lavaretus. The sequence features of the control region (D-loop), the origin of L-strand replication and a putative peptide codified by the 16S mitochondrial RNA are described and discussed.     

The complete mitochondrial DNA sequence of the Atlantic salmon, Salmo salar.

The complete sequence of the Atlantic salmon (Salmo salar) mitochondrial genome has been determined. The entire sequence is 16665 base pairs (bp) in length, with a gene content (13 protein-coding, two ribosomal RNA [rRNA] and 22 transfer RNA [tRNA] genes) and order conforming to that observed in most other vertebrates. Base composition and codon usage have been detailed. Nucleotide and derived amino acid sequences of the 13 protein-coding genes from Atlantic salmon have been compared with their counterparts in rainbow trout. A putative structure for the origin of L-strand replication (O(L)) is proposed, and sequence features of the control region (D-loop) are described.     

Complete mitochondrial genome of the longtooth grouper Epinephelus bruneus (Perciformes, Serranidae)

We determined the complete nucleotide sequence of the mitochondrial (mt) genome for the longtooth grouper, Epinephelus bruneus (Perciformes, Serranidae). This mt genome, consisting of 16,686 base pairs (bp), encoded genes for 13 protein-coding genes, 2 ribosomal RNAs, 22 transfer RNAs, and a noncoding control region as those found in other vertebrates, with the gene order identical to that of typical vertebrates. A major noncoding region between the trnP and trnF genes (991 bp) was considered to be the control region (D-loop). Within this sequence, 22 copies of a 17-bp tandem repeat element, 5'-TGATATTACATATATGC-3', were identified in the control region unlike previous reported Epinephelus species.     

The complete mitochondrial genome sequence and gene organization of the mud crab (Scylla paramamosain) with phylogenetic consideration

The complete mitochondrial genome is of great importance for better understanding the genome-level characteristics and phylogenetic relationships among related species. In the present study, we determined the complete mitochondrial genome DNA sequence of the mud crab (Scylla paramamosain) by 454 deep sequencing and Sanger sequencing approaches. The complete genome DNA was 15,824 bp in length and contained a typical set of 13 protein-coding genes, 22 transfer RNA (tRNA) genes, two ribosomal RNA (rRNA) genes and a putative control region (CR). Of 37 genes, twenty-three were encoded by the heavy strand (H-strand), while the other ones were encoded by light strand (L-strand). The gene order in the mitochondrial genome was largely identical to those obtained in most arthropods, although the relative position of gene tRNA^His differed from other arthropods. Among 13 protein-coding genes, three (ATPase subunit 6 (ATP6), NADH dehydrogenase subunits 1 (ND1) and ND3) started with a rare start codon ATT, whereas, one gene cytochrome c oxidase subunit I (COI) ended with the incomplete stop codon TA. All 22 tRNAs could fold into a typical clover-leaf secondary structure, with the gene sizes ranging from 63 to 73 bp. The phylogenetic analysis based on 12 concatenated protein-coding genes showed that the molecular genetic relationship of 19 species of 11 genera was identical to the traditional taxonomy.     

Complete sequence of the mitochondrial genome of Odontamblyopus rubicundus (Perciformes: Gobiidae): genome characterization and phylogenetic analysis

Odontamblyopus rubicundus is a species of gobiid fishes, inhabits muddy-bottomed coastal waters. In this paper, the first complete mitochondrial genome sequence of O. rubicundus is reported. The complete mitochondrial genome sequence is 17119 bp in length and contains 13 protein-coding genes, two rRNA genes, 22 tRNA genes, a control region and an L-strand origin as in other teleosts. Most mitochondrial genes are encoded on H-strand except for ND6 and seven tRNA genes. Some overlaps occur in protein-coding genes and tRNAs ranging from 1 to 7 bp. The possibly nonfunctional L-strand origin folded into a typical stem-loop secondary structure and a conserved motif (5^′-GCCGG-3^′) was found at the base of the stem within the tRNA ^Cys gene. The TAS, CSB-2 and CSB-3 could be detected in the control region. However, in contrast to most of other fishes, the central conserved sequence block domain and the CSB-1 could not be recognized in O. rubicundus, which is consistent with Acanthogobius hasta (Gobiidae). In addition, phylogenetic analyses based on different sequences of species of Gobiidae and different methods showed that the classification of O. rubicundus into Odontamblyopus due to morphology is debatable.     

Sequence analysis of mitochondrial DNA from Podospora anserina. Pervasiveness of a class I intron in three separate genes

A 48 kb region of the 95 kb mitochondrial genome of Podospora anserina has been mapped and sequenced (1 kb = 10(3) base-pairs). The DNA sequence of the genes for ND2, 3, 4, ATPase 6 and URFC are presented here. As in Neurospora crassa, the ND2 and 3 genes consist of a unit separated by one TAA stop codon. ND3, 4 and ATPase 6 are interrupted by class I introns. All three introns are remarkably similar in the C-domain of their secondary structure, sufficient enough to designate them as new subgroup, class IC introns. The open reading frames of the ND3 and 4 introns bear a high sequence similarity to the open reading frame of the class IB introns of ATPase 6 from N. crassa and ND1 from Neurospora intermedia Varkud. We also show that the tRNA Met-2 gene is duplicated and is involved in a recombinational event. The 5' region of URFC is also duplicated but no involvement of this gene with recombination or formation of plasmids is known. The evolutionary significance of the similarities of intron secondary structures and open reading frames of the ND3, 4 and ATPase 6 genes is discussed, including the possible separate evolution of structural and coding sequences.     

The Mitochondrial Genomes of Two Nematodes, Caenorhabditis Elegans and Ascaris Suum

The nucleotide sequences of the mitochondrial DNA (mtDNA) molecules of two nematodes, Caenorhabditis elegans [13,794 nucleotide pairs (ntp)], and Ascaris suum (14,284 ntp) are presented and compared. Each molecule contains the genes for two ribosomal RNAs (s-rRNA and l-rRNA), 22 transfer RNAs (tRNAs) and 12 proteins, all of which are transcribed in the same direction. The protein genes are the same as 12 of the 13 protein genes found in other metazoan mtDNAs: Cyt b, cytochrome b; COI-III, cytochrome c oxidase subunits I-III; ATPase6, Fo ATPase subunit 6; ND1-6 and 4L, NADH dehydrogenase subunits 1-6 and 4L: a gene for ATPase subunit 8, common to other metazoan mtDNAs, has not been identified in nematode mtDNAs. The C. elegans and A. suum mtDNA molecules both include an apparently noncoding sequence that contains runs of AT dinucleotides, and direct and inverted repeats (the AT region: 466 and 886 ntp, respectively). A second, apparently noncoding sequence in the C. elegans and A. suum mtDNA molecules (109 and 117 ntp, respectively) includes a single, hairpin-forming structure. There are only 38 and 89 other intergenic nucleotides in the C. elegans and A. suum mtDNAs, and no introns. Gene arrangements are identical in the C. elegans and A. suum mtDNA molecules except that the AT regions have different relative locations. However, the arrangement of genes in the two nematode mtDNAs differs extensively from gene arrangements in all other sequenced metazoan mtDNAs. Unusual features regarding nematode mitochondrial tRNA genes and mitochondrial protein gene initiation codons, previously described by us, are reviewed. In the C. elegans and A. suum mt-genetic codes, AGA and AGG specify serine, TGA specifies tryptophan and ATA specifies methionine. From considerations of amino acid and nucleotide sequence similarities it appears likely that the C. elegans and A. suum ancestral lines diverged close to the time of divergence of the cow and human ancestral lines, about 80 million years ago.