Length and Sequence Variation in Evening Bat D-Loop Mtdna

Length variation in D-loop mitochondrial DNA was observed after amplification with the polymerase chain reaction (PCR) in 28% of 195 evening bats, Nycticeius humeralis, from seven colonies. Nucleotide sequences of PCR products show that this heteroplasmy is characterized by an 81-bp region which is tandemly repeated five to eight times. Southern blots using PCR products as probes on HaeIII genomic digests confirm the presence of heteroplasmy. Furthermore, densitometry of electrophoresed PCR products from 109 mother-offspring pairs indicate that heteroplasmy is stably transmitted from mother to offspring with one exception: a heteroplasmic offspring had a homoplastic mother and sib. Nucleotide sequences from this family reveal that a repeat duplication and deletion occurred. The observed mutation rate per generation, mu, for length polymorphism is comparable to an independent estimate, mu = 10(-2), based on hierarchical diversity statistics. With the exception of the repeat nearest the proline tRNA gene, sequence similarities between repeats within bats are consistent with a model of concerted evolution due to unidirectional replication slippage. Selection is inferred to act on the first repeat because in comparison to other repeats it has the least sequence divergence among bats, the fewest transversions, and the lowest minimum free energy associated with folding.     

Sequence Heteroplasmy of D-Loop and rRNA Coding Regions in Mitochondrial DNA from Holstein Cows of Independent Maternal Lineages

A mitochondrial DNA (mtDNA) fragment containing the D-loop, phenylalanine tRNA, valine tRNA, and 12S and 16 rRNA genes was cloned and sequenced from 36 cows of 18 maternal lineages to identify the polymorphic sites within those regions and to detect the existence of heteroplasmic mtDNA in cows. Seventeen variable sites were observed within the D-loop and rRNA coding regions of bovine mtDNA within a 2.5-kb span. The hypervariable sites in the D-loop and rRNA coding regions were identified at nucleotide positions 169, 216, and 1594. Heteroplasmic mtDNA (variable mtDNA within a tissue) existed extensively in cows and was detected within the above regions in 11 of 36 cows sequenced. The insertion, deletion, and nucleotide transversion polymorphisms were found only in homopolymer regions. Heteroplasmy was observed frequently and seemingly is persistent in cattle. Though heteroplasmy was demonstrated, most lineages and mtDNA sites showed no heteroplasmy.     

Tandemly Repeated Sequences in the Mitochondrial DNA Control Region and Phylogeography of the Pike-PerchesStizostedion

DNA sequences from the mitochondrial DNA control region are used to test the phylogeographic relationships among the pike-perches,Stizostedion(Teleostei: Percidae) and to examine patterns of variation. Sequences reveal two types of variability: single nucleotide polymorphisms and 6 to 14 copies of 10- to 11-base-pair tandemly repeated sequences. Numbers of copies of the tandem repeats are found to evolve too rapidly to detect phylogenetic signal at any taxonomic level, even among populations. Sequence similarities of the tandem repeats amongStizostedionand other percids suggest concerted evolutionary processes. Predicted folding of the tandem repeats and their proximity to termination-associated sequences indicate that secondary structure mediates slipped-strand mispairing among the d-loop, heavy, and light strands. Neighbor-joining and maximum parsimony analyses of sequences indicate that the genus is divided into clades on the continents of North America and Eurasia. Calibrating genetic distances with divergence times supports the hypothesis thatStizostediondispersed from Eurasia to North America across a North Pacific Beringial land bridge approximately 4 million years before present, near the beginning of the Pliocene Epoch. The North AmericanS. vitreumandS. canadenseappear separated by about 2.75 million years, and the EurasianS. luciopercaandS. volgensisare diverged by about 1.8 million years, suggesting that speciation occurred during the late Pliocene Epoch.     

现代罗布人群线粒体DNA D-loop区序列多态性研究

目的：研究新疆尉犁县的现代罗布人群线粒体DNAD-loop区序列遗传多态性,并初步探讨现代罗布人群和其他人群的亲缘关系。方法：应用PER扩增直接测序法,对23个所测定的个体序列采用ClustalX、Mega3．1、hrlequin等软件包进行分析。结果：23个个体中,共检测到47个变异位点,界定了22种不同的单倍型,计算出偶合概率P值为0．05482,变异度h值为0．99604。结论：现代罗布人与中亚各民族的亲缘关系很近,尤其是与新疆维吾尔族有很近的亲缘关系。     

Characterization and Evolution of the Mitochondrial DNA Control Region in Hornbills (Bucerotiformes)

We determined the mitochondrial DNA control region sequences of six Bucerotiformes. Hornbills have the typical avian gene order and their control region is similar to other avian control regions in that it is partitioned into three domains: two variable domains that flank a central conserved domain. Two characteristics of the hornbill control region sequence differ from that of other birds. First, domain I is AT rich as opposed to AC rich, and second, the control region is approximately 500 bp longer than that of other birds. Both these deviations from typical avian control region sequence are explainable on the basis of repeat motifs in domain I of the hornbill control region. The repeat motifs probably originated from a duplication of CSB-1 as has been determined in chicken, quail, and snowgoose. Furthermore, the hornbill repeat motifs probably arose before the divergence of hornbills from each other but after the divergence of hornbills from other avian taxa. The mitochondrial control region of hornbills is suitable for both phylogenetic and population studies, with domains I and II probably more suited to population and phylogenetic analyses, respectively.     

Mitochondrial DNA Evolution in Mice

This study extends knowledge of mitochondrial DNA (mtDNA) diversity in mice to include 208 animals belonging to eight species in the subgenus Mus. Highly purified mtDNA from each has been subjected to high-resolution restriction mapping with respect to the known sequence of one mouse mtDNA. Variation attributed to base substitutions was encountered at about 200 of the 300 cleavage sites examined, and a length mutation was located in or near the displacement loop. The variability of different functional regions in this genome was as follows, from least to most: ribosomal RNA, transfer RNA, known proteins, displacement loop and unidentified reading frames.—Phylogenetic analysis confirmed the utility of the Sage and Marshall revision of mouse classification, according to which there are at least four species of commensal mice and three species of aboriginal mice in the complex that was formerly considered to be one species. The most thoroughly studied of these species is Mus domesticus, the house mouse of Western Europe and the Mediterranean region, which is the mitochondrial source of all 50 of the laboratory strains examined and of the representatives of wild house mice introduced by Europeans to North and South America during the past few hundred years.—The level of mtDNA variation among wild representatives of (M. musculus) and several other mammalian species. By contrast, among the many laboratory strains that are known or suspected to stem from the pet mouse trade, there is little interstrain variation, most strains having the "old inbred" type of domesticus mtDNA, whose frequency in the 145 wild mice examined is low, about 0.04. Also notable is the apparent homogeneity of mtDNA in domesticus races that have fixed six or more fused chromosomes and the close relationship of some of these mtDNAs to those of karyotypically normal mice.—In addition, this paper discusses fossil and other evidence for the view that in mice, as in many other mammals, the average rate of point mutational divergence in mtDNA is 2–4% per million years. From this, it is estimated that the commensal association between mice and our ancestors began more than a million years ago, i.e., at an early stage in the evolution of Homo erectus.     

新疆塔吉克族人群线粒体DNA序列多态性研究

目的：研究中国新疆塔吉克族人群线粒体DNA D环区序列遗传多态性,并结合文史资料,对塔吉克族的起源及迁移进行了初步探讨。方法：应用PCR扩增产物直接测序法,对34名塔吉克族无关个体线粒体DNA D一环区高变区Ⅰ进行测序分析。结果：34个个体核苷酸序列与Anderson相应序列比较共发现有47处突变位点,构成22种单倍型塔吉克族线粒体DNA D环高变一区基因差异度为0.9822,偶合概率为0.0466。结论：研究表明新疆塔吉克族与高加索人种遗传关系较近。     

中国荷斯坦牛和鲁西黄牛mtDNAD-loop序列多态性分析

为了从母系遗传角度深入阐明中国荷斯坦牛和鲁西黄牛的群体遗传多样性以及起源进化,本研究采用PCR测序法测定了9头中国荷斯坦牛和11头鲁西黄牛的线粒体DNA D-loop区的部分序列,并经剪切后进行生物信息学软件分析.结果表明,20个个体D-loop区共711 bp,共检测到19种单倍型和50个多态位点.核苷酸多样性(Pi)为0.021 33±0.004 54,单倍型多样性(Hd)为0.994±0.019,平均核苷酸差异数(k)为15.146 20.构建的NJ网络进化树共分为两大支系,其中部分鲁西黄牛与瘤牛聚为一支,而中国荷斯坦牛和部分鲁西黄牛与普通黄牛聚为一支.说明中国荷斯坦牛和鲁西黄牛群体遗传多样性均较高;鲁西黄牛同时含有瘤牛和普通黄牛的血统,而中国荷斯坦牛只含有普通黄牛的血统.     

Sequence Dependent Hole Evolution in DNA

The paper examines thedynamical behavior of a radical cation(G^+*) generated in adouble stranded DNA for differentoligonucleotide sequences. The resonancehole tunneling through an oligonucleotidesequence is studied by the method ofnumerical integration of self-consistentquantum-mechanical equations. The holemotion is considered quantum mechanicallyand nucleotide base oscillations aretreated classically. The results obtaineddemonstrate a strong dependence of chargetransfer on the type of nucleotidesequence. The rates of the hole transferare calculated for different nucleotidesequences and compared with experimentaldata on the transfer from (G^+*)to a GGG unit.     

Identifications of Captive and Wild Tilapia Species Existing in Hawaii by Mitochondrial DNA Control Region Sequence

Background

The tilapia family of the Cichlidae includes many fish species, which live in freshwater and saltwater environments. Several species, such as O. niloticus, O. aureus, and O. mossambicus, are excellent for aquaculture because these fish are easily reproduced and readily adapt to diverse environments. Historically, tilapia species, including O. mossambicus, S. melanotheron, and O. aureus, were introduced to Hawaii many decades ago, and the state of Hawaii uses the import permit policy to prevent O. niloticus from coming into the islands. However, hybrids produced from O. niloticus may already be present in the freshwater and marine environments of the islands. The purpose of this study was to identify tilapia species that exist in Hawaii using mitochondrial DNA analysis.

Methodology/Principal Findings

In this study, we analyzed 382 samples collected from 13 farm (captive) and wild tilapia populations in Oahu and the Hawaii Islands. Comparison of intraspecies variation between the mitochondrial DNA control region (mtDNA CR) and cytochrome c oxidase I (COI) gene from five populations indicated that mtDNA CR had higher nucleotide diversity than COI. A phylogenetic tree of all sampled tilapia was generated using mtDNA CR sequences. The neighbor-joining tree analysis identified seven distinctive tilapia species: O. aureus, O. mossambicus, O. niloticus, S. melanotheron, O. urolepies, T. redalli, and a hybrid of O. massambicus and O. niloticus. Of all the populations examined, 10 populations consisting of O. aureus, O. mossambicus, O. urolepis, and O. niloticus from the farmed sites were relatively pure, whereas three wild populations showed some degree of introgression and hybridization.

Conclusions/Significance

This DNA-based tilapia species identification is the first report that confirmed tilapia species identities in the wild and captive populations in Hawaii. The DNA sequence comparisons of mtDNA CR appear to be a valid method for tilapia species identification. The suspected tilapia hybrids that consist of O. niloticus are present in captive and wild populations in Hawaii.     

塔克拉玛干沙漠腹地隔离人群线粒体DNA序列多态性分析

对新疆塔克拉玛干沙漠腹地的75名克里雅人线粒体DNA的高可变I区的15996—16401的片段进行了序列分析,在所测定的75个个体中,共检测到68个位点存在变异,界定了71种不同的单倍型。克里雅人群的核昔酸变异度和平均核苷酸差异都介于所报道的东方人群和西方人群之间。根据Neighbor-joining法构建系统发育树,发现中亚的各人群均处于东方人群的亚洲谱系和西方人群的欧洲谱系之间,并且克里雅与新疆维吾尔和境外维吾尔之间的遗传距离最近,表明他们之间有很密切的亲缘关系。     

Sequence Variation in the tRNA Genes of Human Mitochondrial DNA

Recent analyses have shown that nonsynonymous variation in human mitochondrial DNA (mtDNA) contains nonneutral variants, suggesting the presence of mildly deleterious mutations. Many of the disease-causing mutations in mtDNA occur in the genes encoding the tRNAs. Nucleotide sequence variation in these genes has not been studied in human populations, nor have the structural consequences of nucleotide substitutions in tRNA molecules been examined. We therefore determined the nucleotide sequences of the 22 tRNA genes in the mtDNA of 477 Finns and, also, obtained 435 European sequences from the MitoKor database. No differences in population polymorphism indices were found between the two data sets. We assessed selective constraints against various tRNA domains by comparing allele frequencies between these domains and the synonymous and nonsynonymous sites, respectively. All tRNA domains except the variable loop were more conserved than synonymous sites, and T stem and D stem were more conserved than the respective loops. We also analyzed the energetic consequences of the 96 polymorphisms recovered in the two data sets or in the Mitomap database. The minimum free energy (ΔG) was calculated using the free energy rules as implemented in mfold version 3.1. The ΔG’s were normally distributed among the 22 wild-type tRNA genes, whereas the 96 polymorphic tRNAs departed significantly from a normal distribution. The largest differences in ΔG between the wild-type and the polymorphic tRNAs in the Finnish population tended to be in the polymorphisms that were present at low frequencies. Allele frequency distributions and minimum free energy calculations both suggested that some polymorphisms in tRNA genes are nonneutral.Reviewing Editor: Dr. Rüdiger Cerff     

Slow Mitochondrial COI Sequence Evolution at the Base of the Metazoan Tree and Its Implications for DNA Barcoding

The evolution rates of mtDNA in early metazoans hold important implications for DNA barcoding. Here, we present a comprehensive analysis of intra- and interspecific COI variabilities in Porifera and Cnidaria (separately as Anthozoa, Hydrozoa, and Scyphozoa) using a data set of 619 sequences from 224 species. We found variation within and between species to be much lower in Porifera and Anthozoa compared to Medusozoa (Hydrozoa and Scyphozoa), which has divergences similar to typical metazoans. Given that recent evidence has shown that fungi also exhibit limited COI divergence, slow-evolving mtDNA is likely to be plesiomorphic for the Metazoa. Higher rates of evolution could have originated independently in Medusozoa and Bilateria or been acquired in the Cnidaria + Bilateria clade and lost in the Anthozoa. Low identification success and substantial overlap between intra- and interspecific COI distances render the Anthozoa unsuitable for DNA barcoding. Caution is also advised for Porifera and Hydrozoa because of relatively low identification success rates as even threshold divergence that maximizes the “barcoding gap” does not improve identification success. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Impact of Somatic Mutations in the D-Loop of Mitochondrial DNA on the Survival of Oral Squamous Cell Carcinoma Patients

Objectives

The aim of this study was to investigate somatic mutations in the D-loop of mitochondrial DNA (mtDNA) and their impact on survival in oral squamous cell carcinoma patients.

Materials and Methods

Surgical specimen confirmed by pathological examination and corresponding non-cancerous tissues were collected from 120 oral squamous cell carcinoma patients. The sequence in the D-loop of mtDNA from non-cancerous tissues was compared with that from paired cancer samples and any sequence differences were recognized as somatic mutations.

Results

Somatic mutations in the D-loop of mtDNA were identified in 75 (62.5%) oral squamous cell carcinoma patients and most of them occurred in the poly-C tract. Although there were no significant differences in demographic and tumor-related features between participants with and without somatic mutation, the mutation group had a better survival rate (5 year disease-specific survival rate: 64.0% vs. 43.0%, P = 0.0266).

Conclusion

Somatic mutation in D-loop of mtDNA was associated with a better survival in oral squamous cell carcinoma patients.     

新疆3种雅罗鱼线粒体DNA控制区序列的差异和系统进化关系

对分布在新疆的准噶尔雅罗鱼(Leuciscus merzbacheri)、贝加尔雅罗鱼(Leuciscus leuciscus baicalensis)和高体雅罗鱼(Leuciscus idus)3个鱼种共24尾个体的线粒体DNA D-loop控制区核苷酸序列进行了测定,获得24条长度为667—669bp的同源基因序列。3种雅罗鱼之间的序列差异在6．39％—9．89％之间,贝加尔雅罗鱼与高体雅罗鱼种间序列同源性高,变异程度小;贝加尔雅罗鱼与准噶尔雅罗鱼种间序列同源性最低,变异程度最大。所采集的贝加尔雅罗鱼两个地理群体(赛里木湖和额尔齐斯河)内mtDNA的平均核苷酸碱基序列差异为1．07％和1．08％;两群体间的序列差异为1．07％,显示两个地理群体间无明显分化。DNA序列数据显示,这3种鱼类线粒体DNAD-loop序列变异丰富,24尾个体呈现独自的单倍型。同源基因序列平均含AT碱基64．1％,GC碱基35．9％,显示准噶尔雅罗鱼、贝加尔雅罗鱼、高体雅罗鱼的线粒体DNAD-loop区核苷酸组成的不均一性。分子系统树提示,贝加尔雅罗鱼与高体雅罗鱼亲缘关系较近,准噶尔雅罗鱼是3种雅罗鱼中较古老的鱼种。     

Problems of Molecular Systematics of the Genus Salvelinus Based on Nucleotide Sequence Variability in the Major Noncoding Region of Mitochondrial DNA

Variability of the major noncoding mitochondrial DNA region of char (Salvelinus alpinus complex) was analyzed by the median network method on the basis of the literature data on nucleotide sequences of this region. A significant portion (21%) of the polymorphic sites of char mtDNA was shown to be evolutionarily unstable, which results in mutation homoplasia at these sites. Using median-joining analysis the chars were divided into three phylogeographical groups: Arctic, Beringian, and chars occurring in the vast region from Lake Baikal and Taimyr Peninsula to the Atlantic Ocean. The latter group includes three subgroups (Siberian, Atlantic, and Acadian), which diverged from a common ancestor. In the Arctic group, the branch of Taranetz char S. taranetzi is clearly separated. It diverged from the common ancestor earlier than S. boganidae andS. elgyticus occurring on the Chukotka Peninsula species and S. a. erythrinus occurring in Alaska. The Beringian group, which includes dolly varden char from various regions of Asia and America, is an intermediate between the two char groups. The main problems of char systematics inferred from the major noncoding mtDNA region variability arise from the high level of mutation homoplasia.