Your search keyword '"Mitochondrial DNA -- Research"' showing total 106 results

1. Gorgeous mosaic of mitochondrial genes created by horizontal transfer and gene conversion

Author

Hao, Weilong, Richardson, Aaron O., Zheng, Yihong, and Palmer, Jeffrey D.

Subjects

Mitochondrial DNA -- Research, Mitochondrial DNA -- Physiological aspects, Chloroplasts -- Genetic aspects, Chloroplasts -- Research, Genetic recombination -- Research, Science and technology

Abstract

The best known outcome of horizontal gene transfer (HGT) is the introduction of novel genes, but other outcomes have been described. When a transferred gene has a homolog in the recipient genome, the native gene may be functionally replaced (and subsequently lost) or partially overwritten by gene conversion with transiently present foreign DNA. Here we report the discovery, in two lineages of plant mitochondrial genes, of novel gene combinations that arose by conversion between coresident native and foreign homologs. These lineages have undergone intricate conversion between native and foreign copies, with conversion occurring repeatedly and differentially over the course of speciation, leading to radiations of mosaic genes involved in respiration and intron splicing. Based on these findings, we develop a model--the duplicative HGT and differential gene conversion model--that integrates HGT and ongoing gene conversion in the context of speciation. Finally, we show that one of these HGT-driven gene-conversional radiations followed two additional types of conversional chimerism, namely, intramitochondrial retroprocessing and interorganellar gene conversion across the 2 billion year divide between mitochondria and chloroplasts. These findings expand our appreciation of HGT and gene conversion as creative evolutionary forces, establish plant mitochondria as a premiere system for studying the evolutionary dynamics of HGT and its genetic reverberations, and recommend careful examination of bacterial and other genomes for similar, likely overlooked phenomena. gene duplication | recombination doi/ 10.1073/pnas.1016295107

Published

2010

2. Mitochondrial Lon protease regulates mitochondrial DNA copy number and transcription by selective degradation of mitochondrial transcription factor A (TFAM)

Author

Matsushima, Yuichi, Goto, Yu-ichi, and Kaguni, Laurie S.

Subjects

Mitochondrial DNA -- Research, Proteases -- Research, Mitochondria -- Research, Science and technology

Abstract

Lon is the major protease in the mitochondrial matrix in eukaryotes, and is well conserved among species. Although a role for Lon in mitochondrial biogenesis has been proposed, the mechanistic basis is unclear. Here, we demonstrate a role for Lon in mtDNA metabolism. An RNA interference (RNAi) construct was designed that reduces Lon to less than 10% of its normal level in Drosophila Schneider cells. RNAi knockdown of Lon results in increased abundance of mitochondrial transcription factor A (TFAM) and mtDNA copy number. In a corollary manner, overexpression of Lon reduces TFAM levels and mtDNA copy number. Notably, induction of mtDNA depletion in Lon knockdown cells does not result in degradation of TFAM, thereby causing a dramatic increase in the TFAM:mtDNA ratio. The increased TFAM:mtDNA ratio in turn causes inhibition of mitochondrial transcription. We' conclude that Lon regulates mitochondrial transcription by stabilizing the mitochondrial TFAM: mtDNA ratio via selective degradation of TFAM. AAA+ protease | mtDNA maintenance | quality control doi/ 10.1073/pnas.1008924107

Published

2010

3. Patterns of East Asian pig domestication, migration, and turnover revealed by modern and ancient DNA

Author

Larson, Greger, Liu, Ranran, Zhao, Xingbo, Yuan, Jing, Fuller, Dorian, Barton, Loukas, Dobney, Keith, Fan, Qipeng, Gu, Zhiliang, Liu, Xiao-Hui, Luo, Yunbing, Lv, Peng, Andersson, Leif, and Li, Ning

Subjects

East Asia -- Natural history, Mitochondrial DNA -- Research, Swine -- Genetic aspects, Swine -- Natural history, Domestication -- Genetic aspects, Science and technology

Abstract

The establishment of agricultural economies based upon domestic animals began independently in many parts of the world and led to both increases in human population size and the migration of people carrying domestic plants and animals. The precise circumstances of the earliest phases of these events remain mysterious given their antiquity and the fact that subsequent waves of migrants have often replaced the first. Through the use of more than 1,500 modern (including 151 previously uncharacterized specimens) and 18 ancient (representing six East Asian archeological sites) pig (Sus scrofa) DNA sequences sampled across East Asia, we provide evidence for the long-term genetic continuity between modern and ancient Chinese domestic pigs. Although the Chinese case for independent pig domestication is supported by both genetic and archaeological evidence, we discuss five additional (and possibly) independent domestications of indigenous wild boar populations: one in India, three in peninsular Southeast Asia, and one off the coast of Taiwan. Collectively, we refer to these instances as 'cryptic domestication,' given the current lack of corroborating archaeological evidence. In addition, we demonstrate the existence of numerous populations of genetically distinct and widespread wild boar populations that have not contributed maternal genetic material to modern domestic stocks. The overall findings provide the most complete picture yet of pig evolution and domestication in East Asia, and generate testable hypotheses regarding the development and spread of early farmers in the Far East. Asian colonization | mtDNA | phylogeography doi: 10.1073/pnas.0912264107

Published

2010

4. Dissecting comimetic radiations in Heliconius reveals divergent histories of convergent butterflies

Author

Quek, Swee-Peck, Counterman, Brian A., de Moura, Priscila Albuquerque, Cardoso, Marcio Z., Marshall, Charles R., McMillan, W. Owen, and Kronforst, Marcus R.

Subjects

Radiation -- Research, Butterflies -- Genetic aspects, Butterflies -- Natural history, Mitochondrial DNA -- Research, Science and technology

Abstract

Mimicry among Heliconius butterflies provides a classic example of coevolution but unresolved relationships among mimetic subspecies have prevented examination of codiversification between species. We present amplified fragment length polymorphism and mtDNA datasets for the major comimetic races of Heliconius erato and H. melpomene. The AFLP data reveal unprecedented resolution, clustering samples by geography and race in both species. Our results show that, although H. erato and H. melpomene co-occur, mimic each other, and exhibit parallel shifts incolor pattern, they experienced very different modes of diversification and geographic histories. Our results suggest that H. erato originated on the western side of South America whereas H. melpomene originated in the east. H. erato underwent rapid diversification and expansion with continued gene-flow following diversification, resulting in widely dispersed sister taxa. In contrast, H. melpomene underwent a slower pace of diversification with Iower leveis of gene flow, producing a stepwise directional expansion from west to east. Our results also suggest that each of the three main wing pattern phenotypes originated and/or was Iost multipie times in each species. The rayed pattern is likely to be the ancestral phenotype in H. erato whereas postman or red patch is likely to be ancestral in H. melpomene. Finally, H. cydno and H. himera are monophyletic entities clearly nested within H. melpomene and H. erato, rather than being their respective sister species. Estimates of mtDNA divergence suggest a minimum age of 2.8 and 2.1 My for H. erato and H. melpomene, respectively, placing their origins in the late Pliocene. amplified fragment length polymorphism | Heliconius erato | Heliconius melpomene | Mullerian mimicry | mtDNA doi/ 10.1073/pnas.0911572107

Published

2010

5. Complete mitochondrial genome of a Pleistocene jawbone unveils the origin of polar bear

Author

Lindqvist, Charlotte, Schuster, Stephan C., Sun, Yazhou, Talbot, Sandra L., Qi, Ji, Ratan, Aakrosh, Tomsho, Lynn P., Kasson, Lindsay, Zeyl, Eve, Aars, Jon, Miller, Webb, Ingolfsson, Olafur, Bachmann, Lutz, and Wiig, Oystein

Subjects

Mitochondrial DNA -- Research, Molecular evolution -- Research, Polar bear -- Natural history, Polar bear -- Genetic aspects, Polar bear -- Research, Science and technology

Abstract

The polar bear has become the flagship species in the climate-change discussion. However, little is known about how past climate impacted its evolution and persistence, given an extremely poor fossil record. Although it is undisputed from analyses of mitochondrial (mt) DNA that polar bears constitute a lineage within the genetic diversity of brown bears, timing estimates of their divergence have differed considerably. Using next-generation sequencing technology, we have generated a complete, high-quality mt genome from a stratigraphically validated 130,000- to 110,000-year-old polar bear jawbone. In addition, six mt genomes were generated of extant polar bears from Alaska and brown bears from the Admiralty and Baranof islands of the Alexander Archipelago of southeastern Alaska and Kodiak Island. We show that the phylogenetic position of the ancient polar bear lies almost directly at the branching point between polar bears and brown bears, elucidating a unique morphologically and molecularly documented fossil link between living mammal species. Molecular dating and stable isotope analyses also show that by very early in their evolutionary history, polar bears were already inhabitants of the Artic sea ice and had adapted very rapidly to their current and unique ecology at the top of the Arctic marine food chain. As such, polar bears provide an excellent example of evolutionary opportunism within a widespread mammalian lineage. ancient DNA | Arctic | mammal evolution | next-generation sequencing | Svalbard doi/ 10.1073/pnas.094266107

Published

2010

6. Biogenesis of glutaminyl-mt [tRNA.sup.Gln] in human mitochondria

Author

Nagao, Asuteka, Suzuki, Takeo, Katoh, Takayuki, Sakaguchi, Yuriko, and Suzuki, Tsutomu

Subjects

Transfer RNA -- Physiological aspects, Aminoacyl-tRNA synthetases -- Research, Mitochondrial DNA -- Research, Protein biosynthesis -- Research, Science and technology

Abstract

Mammalian mitochondrial (mt) tRNAs, which are required for mitochondrial protein synthesis, are all encoded in the mitochondrial genome, while mt aminoacyl-tRNA synthetases (aaRSs) are encoded in the nuclear genome. However, no mitochondrial homolog of glutaminyl-tRNA synthetase (GInRS) has been identified in mammalian genomes, implying that GIn-[tRNA.sup.Gln] is synthesized via an indirect pathway in the mammalian mitochondria. We demonstrate here that human mt glutamyl-tRNA synthetase (mtGluRS) efficiently misaminoacylates mt [tRNA.sup.Gln] to form Glu-[tRNA.sup.GIn]. In addition, we have identified a human homolog of the Glu-[tRNA.sup.Gln] amidotransferase, the hGatCAB heterotrimer. When any of the hGatCAB subunits were inactivated by siRNA-mediated knock down in human cells, the Glu-charged form of [tRNA.sup.Gln] accumulated and defects in respiration could be observed. We successfully reconstituted in vitro Gln-[tRNA.sup.Gln] formation catalyzed by the recombinant mtGluRS and hGatCAB. The misaminoacylated form of [tRNA.sup.Gln] has a weak binding affinity to the mt elongation factor Tu (mtEF-Tu), indicating that the misaminoacylated form of [tRNA.sup.Gln] is rejected from the translational apparatus to maintain the accuracy of mitochondrial protein synthesis. EF-Tu | GIu-tRNAGln amidotransferase | glutamyl-tRNA synthetase | mitochondrial tRNA

Published

2009

7. Genetic identification of putative remains of the famous astronomer Nicolaus Copernicus

Author

Bogdanowicz, Wieslaw, Allen, Marie, Branicki, Wojciech, Lembring, Maria, Gajewska, Marta, and Kupiec, Tomasz

Subjects

Mitochondrial DNA -- Research, Chromosomes -- Research, Science and technology

Abstract

We report the results of mitochondrial and nuclear DNA analyses of skeletal remains exhumed in 2005 at Frombork Cathedral in Poland, that are thought to be those of Nicolaus Copernicus (1473-1543). The analyzed bone remains were found close to the altar Nicolaus Copernicus was responsible for during his tenure as priest. The mitochondrial DNA (mtDNA) profiles from 3 upper molars and the femurs were identical, suggesting that the remains originate from the same individual. Identical mtDNA profiles were also determined in 2 hairs discovered in a calendar now exhibited at Museum Gustavianum in Uppsala, Sweden. This calendar was the property of Nicolaus Copernicus for much of his life. These findings, together with anthropological data, support the identification of the human remains found in Frombork Cathedral as those of Nicolaus Copernicus. Up-to-now the particular mtDNA haplotype has been observed only 3 times in Germany and once in Denmark. Moreover, Y-chromosomal and autosomal short tandem repeat markers were analyzed in one of the tooth samples, that was much better preserved than other parts of the skeleton. Molecular sex determination revealed that the skeleton is from a male individual, and this result is consistent with morphological investigations. The minimal Y-chromosomal haplotype determined in the putative remains of Nicolaus Copernicus has been observed previously in many countries, including Austria, Germany, Poland, and the Czech Republic. Finally, an analysis of the SNP located in the HERC2 gene revealed the C/C genotype that is predominant in blue-eyed humans, suggesting that Copernicus may have had a light iris color. eye-color marker | hairs | human remains | identification | mitochondrial and nuclear DNA

Published

2009

8. Successive radiations, not stasis, in the South American primate fauna

Author

Hodgson, Jason A., Sterner, Kirstin N., Matthews, Luke J., Burrell, Andrew S., Jani, Rachana A., Raaum, Ryan L., Stewart, Caro-Beth, and Disotell, Todd R.

Subjects

Primates -- Natural history, Primates -- Genetic aspects, Mitochondrial DNA -- Research, Phylogeny -- Research, Molecular clock (Genetics) -- Research, Divergent evolution -- Research, Fossils -- Properties, Bayesian statistical decision theory -- Methods, Bayesian statistical decision theory -- Usage, Calibration -- Methods, Science and technology

Abstract

The earliest Neotropical primate fossils complete enough for taxonomic assessment, Dolichocebus, Tremacebus, and Chilecebus, date to approximately 20 Ma. These have been interpreted as either closely related to extant forms or as extinct stem lineages. The former hypothesis of morphological stasis requires most living platyrrhine genera to have diverged before 20 Ma. To test this hypothesis, we collected new complete mitochondrial genomes from Aotus lemurinus, Saimiri sciureus, Saguinus oedipus, Ateles belzebuth, and Callicebus donacophilus. We combined these with published sequences from Cebus albifrons and other primates to infer the mitochondrial phylogeny. We found support for a cebid/ atelid clade to the exclusion of the pitheciids. Then, using Bayesian methods and well-supported fossil calibration constraints, we estimated that the platyrrhine most recent common ancestor (MRCA) dates to 19.5 Ma, with all major lineages diverging by 14.3 Ma. Next, we estimated catarrhine divergence dates on the basis of platyrrhine divergence scenarios and found that only a platyrrhine MRCA less than 21 Ma is concordant with the catarrhine fossil record. Finally, we calculated that 33% more change in the rate of evolution is required for platyrrhine divergences consistent with the morphologic stasis hypothesis than for a more recent radiation. We conclude that Dolichocebus, Tremacebus, and Chilecebus are likely too old to be crown platyrrhines, suggesting they were part of an extinct early radiation. We note that the crown platyrrhine radiation was concomitant with the radiation of 2 South American xenarthran lineages and follows a global temperature peak and tectonic activity in the Andes. mitochondrial phylogeny | molecular clock | New World monkeys | primate evolution | platyrrhine origins

Published

2009

9. Intraspecific phylogenetic analysis of Siberian woolly mammoths using complete mitochondrial genomes

Author

Gilbert, M. Thomas P., Drautz, Daniela I., Lesk, Arthur M., Ho, Simon Y.W., Qi, Ji, Ratan, Aakrosh, Hsu, Chih-Hao, Sher, Andrei, Dalen, Love, Gotherstrom, Anders, Tomsho, Lynn P., Rendulic, Snjezana, Packard, Michael, Campos, Paula F., Kuznetsova, Tatyana V., Shidlovskiy, Fyodor, Tikhonov, Alexei, Willerslev, Eske, Iacumink, Paola, Buigues, Bernard, Ericson, Per G.P., Germonpre, Mietje, Kosintsev, Pavel, Nikolaev, Vladimir, Nowak-Kemp, Malgosia, Knight, James R., Irzyk, Gerard P., Perbost, Clotilde S., Fredrikson, Karin M., Harkins, Timothy T., Sheridan, Sharon, Miller, Webb, and Schuster, Stephan C.

Subjects

Mitochondrial DNA -- Usage, Mitochondrial DNA -- Research, Phylogeny -- Research, Mammoths -- Physiological aspects, Mammoths -- Genetic aspects, Mammoths -- Research, Science and technology

Abstract

We report five new complete mitochondrial DNA (mtDNA) genomes of Siberian woolly mammoth (Mammuthus primigenius), sequenced with up to 73-fold coverage from DNA extracted from hair shaft material. Three of the sequences present the first complete mtDNA genomes of mammoth clade II. Analysis of these and 13 recently published mtDNA genomes demonstrates the existence of two apparently sympatric mtDNA clades that exhibit high interclade divergence. The analytical power afforded by the analysis of the complete mtDNA genomes reveals a surprisingly ancient coalescence age of the two clades, [approximately equal to]1-2 million years, depending on the calibration technique. Furthermore, statistical analysis of the temporal distribution of the [sup.14]C ages of these and previously identified members of the two mammoth clades suggests that clade II went extinct before clade I. Modeling of protein structures failed to indicate any important functional difference between genomes belonging to the two clades, suggesting that the loss of clade II more likely is due to genetic drift than a selective sweep. mtDNA genome | phylogeny | ancient DNA | next-generation sequencing

Published

2008

10. Revealing the prehistoric settlement of Australia by Y chromosome and mtDNA analysis

Author

Hudjashov, Georgi, Kivisild, Toomas, Underhill, Peter A., Endicott, Phillip, Sanchez, Juan J., Lin, Alice A., Sheng, Peidong, Oefner, Peter, Renfrew, Colin, Villems, Richard, and Forster, Peter

Subjects

Australia -- Natural history, Mitochondrial DNA -- Research, Population genetics -- Research, Y chromosome -- Research, Science and technology

Abstract

Published and new samples of Aboriginal Australians and Melanesians were analyzed for mtDNA (n = 172) and Y variation (n = 522), and the resulting profiles were compared with the branches known so far within the global mtDNA and the Y chromosome tree. (i) All Australian lineages are confirmed to fall within the mitochondrial founder branches M and N and the Y chromosomal founders C and F, which are associated with the exodus of modern humans from Africa [approximately equal to] 50-70,000 years ago. The analysis reveals no evidence for any archaic maternal or paternal lineages in Australians, despite some suggestively robust features in the Australian fossil record, thus weakening the argument for continuity with any earlier Homo erectus populations in Southeast Asia. (ii) The tree of complete mtDNA sequences shows that Aboriginal Australians are most closely related to the autochthonous populations of New Guinea/Melanesia, indicating that prehistoric Australia and New Guinea were occupied initially by one and the same Palaeolithic colonization event [approximately equal to] 50,000 years ago, in agreement with current archaeological evidence. (iii) The deep mtDNA and Y chromosomal branching patterns between Australia and most other populations around the Indian Ocean point to a considerable isolation after the initial arrival. (iv) We detect only minor secondary gene flow into Australia, and this could have taken place before the land bridge between Australia and New Guinea was submerged [approximately equal to] 8,000 years ago, thus calling into question that certain significant developments in later Australian prehistory (the emergence of a backedblade lithic industry, and the linguistic dichotomy) were externally motivated. human evolution | population genetics

Published

2007

11. Frequency and phenotypic implications of mitochondrial DNA mutations in human squamous cell cancers of the head and neck

Author

Zhou, Shaoyu, Kachhap, Sushant, Sun, Wenyue, Wu, Guojun, Chuang, Alice, Poeta, Luana, Grumbine, Lawson, Mithanil, Suhail K., Chatterjee, Aditi, Koch, Wayne, Westra, William H., Maitra, Anirban, Glazer, Chad, Carducci, Michael, Sidransky, David, McFate, Thomas, Verma, Ajay, and Califano, Joseph A.

Subjects

Mitochondrial DNA -- Research, Squamous cell carcinoma -- Research, Squamous cell carcinoma -- Genetic aspects, Science and technology

Abstract

Mitochondrial genomic mutations are found in a variety of human cancers; however, the frequency of mitochondrial DNA (mtDNA) mutations in coding regions remains poorly defined, and the functional effects of mitochondrial mutations found in primary human cancers are not well described. Using MitoChip, we sequenced the whole mitochondrial genome in 83 head ancl neck squamous cell carcinomas. Forty-one of 83 (49%) tumors contained mtDNA mutations. Mutations occurred within noncoding (D-loop) and coding regions. A nonrandom distribution of mutations was found throughout the mitochondrial enzyme complex components. Sequencing of margins with dysplasia demonstrated an identical nonconservative mitochondrial mutation (A76T in ND4L) as the tumor, suggesting a role of mtDNA mutation in tumor progression. Analysis of p53 status showed that mtDNA mutations correlated positively with p53 mutations (P < 0.002). To characterize biological function of the mtDNA mutations, we cloned NADH dehydrogenase subunit 2 (ND2) mutants based on primary tumor mutations. Expression of the nuclear-transcribed, mitochondrial-targeted ND2 mutants resulted in increased anchorage-dependent and -independent growth, which was accompanied by increased reactive oxygen species production and an aerobic glycolytic metabolic phenotype with hypoxia-inducible factor (HIF)-1[alpha] induction that is reversible by ascorbate. Cancer-specific mitochondrial mutations may contribute to development of a malignant phenotype by direct genotoxic effects from increased reactive oxygen species production as well as induction of aerobic glycolysis and growth promotion. p53 | reactive oxygen species | MitoChip

Published

2007

12. Phylogeny and ancient DNA of Sus provides insights into neolithic expansion in Island Southeast Asia and Oceania

Author

Larson, Greger, Cucchi, Thomas, Fujita, Masakatsu, Matisoo-Smith, Elizabeth, Robins, Judith, Anderson, Atholl, Rolett, Barry, Spriggs, Matthew, Dolman, Gaynor, Kim, Tae-Hun, Thuy, Nguyen Thi Dieu, Randi, Ettore, Doherty, Moira, Due, Rokus Awe, Bollt, Robert, Djubiantono, Tony, Griffin, Bion, Intoh, Michiko, Keane, Emile, Kirch, Patrick, Li, Kuang-Ti, Morwood, Michael, Pedrina, Lolita M., Piper, Philip, Rabett, Ryan J., Shooter, Peter, Van den Bergh, Gert, West, Eric, Wickler, Stephen, Yuan, Jing, Cooper, Alan, and Dobney, Keith

Subjects

Domestication -- Research, Mitochondrial DNA -- Research, Swine -- Research, Swine -- Genetic aspects, Science and technology

Abstract

Human settlement of Oceania marked the culmination of a global colonization process that began when humans first left Africa at least 90,000 years ago. The precise origins and dispersal routes of the Austronesian peoples and the associated Lapita culture remain contentious, and numerous disparate models of dispersal (based primarily on linguistic, genetic, and archeological data) have been proposed. Here, through the use of mtDNA from 781 modern and ancient Sus specimens, we provide evidence for an early human-mediated translocation of the Sulawesi warty pig (Sus celebensis) to Flores and Timor and two later separate human-mediated dispersals of domestic pig (Sus scrofa) through Island Southeast Asia into Oceania. Of the later dispersal routes, one is unequivocally associated with the Neolithic (Lapita) and later Polynesian migrations and links modern and archeological Javan, Sumatran, Wallacean, and Oceanic pigs with mainland Southeast Asian S. scrofa. Archeological and genetic evidence shows these pigs were certainly introduced to islands east of the Wallace Line, including New Guinea, and that so-called 'wild' pigs within this region are most likely feral descendants of domestic pigs introduced by early agriculturalists. The other later pig dispersal links mainland East Asian pigs to western Micronesia, Taiwan, and the Philippines. These results provide important data with which to test current models for human dispersal in the region. domestication | mtDNA | Pacific colonization | phylogeography

Published

2007

13. WD40 protein Mda1 is purified with Dnm1 and forms a dividing ring for mitochondria before Dnm1 in Cyanidioschyzon merolae

Author

Nishida, Keiji, Yagisawa, Fumi, Kuroiwa, Haruko, Yoshida, Yamato, and Kuroiwa, Tsuneyoshi

Subjects

Mitochondrial DNA -- Research, Plastids -- Research, Electron microscopy -- Usage, Phosphorylation -- Research, Science and technology

Abstract

Mitochondria are not produced de novo but are maintained by division. Mitochondrial division is a coordinated process of positioning and constriction of the division site and fission of double membranes, in which dynamin-related protein is believed to mediate outer membrane fission. Part of the mitochondrial division machinery was purified from M phase-arrested Cyanidioschyzon merolae cells through biochemical fractionation. The dynamin-related protein Dnm1 was one of the two major proteins in the purified fraction and was accompanied by a newly identified protein CMR185C, named Mda1. Mda1 contained a predictable coiled-coil region and WD40 repeats, similarly to Mdv1 and Caf4 in yeasts. Immunofluorescence and immunoelectron microscopy showed that Mda1 localizes as a medial belt or ring on the mitochondrial outer surface throughout the division. The ring formation of Mda1 followed the plane of the ring of FtsZ, a protein that resides in the matrix. Dnm1 consistently colocalized with Mda1 only in the late stages of division. Mda1 protein was expressed through S to M phases and was phosphorylated specifically in M phase when Mda1 transformed from belt into foci and became colocalizing with Dnm1. Dephosphorylation of Mda1 in vitro increased its sedimentation coefficient, suggesting conformational changes of the macromolecule. Disassembly of the purified mitochondrial division machinery was performed by adding GTP to independently release Dnm1, suggesting that Mda1 forms a stable homo-oligomer by itself as a core structure of the mitochondrial division machinery. dynamin | FtsZ | mitochondrial division | plastid

Published

2007

14. An Andean origin of Phytophthora infestans inferred from mitochondrial and nuclear gene genealogies

Author

Gomez-Alpizar, Luis, Carbone, Ignazio, and Ristaino, Jean Beagle

Subjects

Phytophthora diseases -- Research, Phytophthora diseases -- Genetic aspects, Phytophthora diseases -- Origin, Potatoes -- Research, Potatoes -- Diseases, Mitochondrial DNA -- Research, Science and technology

Abstract

Phytophthora infestans (Mont.) de Bary caused the 19th century Irish Potato Famine. We assessed the genealogical history of P. infestans using sequences from portions of two nuclear genes ([beta]-tubulin and Ras) and several mitochondrial loci P3, (rp/14, rp/5, tRNA) and P4 (Cox1) from 94 isolates from South, Central, and North America, as well as Ireland. Summary statistics, migration analyses and the genealogy of current populations of P. infestans for both nuclear and mitochondrial loci are consistent with an 'out of South America' origin for P. infestans. Mexican populations of P. infestans from the putative center of origin in Toluca Mexico harbored less nucleotide and haplotype diversity than Andean populations. Coalescent-based genealogies of all loci were congruent and demonstrate the existence of two lineages leading to present day haplotypes of P. infestans on potatoes. The oldest lineage associated with isolates from the section Anarrhich-omenun including Solanum tetrapetalum from Ecuador was identified as Phytophthora andina and evolved from a common ancestor of P. infestans. Nuclear and mitochondrial haplotypes found in Toluca Mexico were derived from only one of the two lineages, whereas haplotypes from Andean populations in Peru and Ecuador were derived from both lineages. Haplotypes found in populations from the U.S. and Ireland was derived from both ancestral lineages that occur in South America suggesting a common ancestry among these populations. The geographic distribution of mutations on the rooted gene genealogies demonstrate that the oldest mutations in P. infestans originated in South America and are consistent with a South American origin. late blight | oomycetes | phylogeography | Solanum tuberosum | stamenopiles

Published

2007

15. Progressive parkinsonism in mice with respiratory-chain-deficient dopamine neurons

Author

Ekstrand, Mats I., Terzioglu, Mugen, Galter, Dagmar, Zhu, Shunwei, Hofstetter, Christoph, Lindqvist, Eva, Thams, Sebastian, Bergstrand, Anita, Hansson, Fredrik Sterky, Trifunovic, Aleksandra, Hoffer, Barry, Cullheim, Staffan, Mohammed, Abdul H., Olson, Lars, and Larssonf, Nils-Goran

Subjects

Mitochondrial DNA -- Research, Genetically modified mice -- Research, Parkinsonism -- Risk factors, Parkinsonism -- Genetic aspects, Dopamine -- Agonists, Dopamine -- Research, Science and technology

Abstract

Mitochondrial dysfunction is implicated in the pathophysiology of Parkinson's disease (PD), a common age-associated neurode-generative disease characterized by intraneuronal inclusions (Lewy bodies) and progressive degeneration of the nigrostriatal dopamine (DA) system. It has recently been demonstrated that midbrain DA neurons of PD patients and elderly humans contain high levels of somatic mtDNA mutations, which may impair respiratory chain function. However, clinical studies have not established whether the respiratory chain deficiency is a primary abnormality leading to inclusion formation and DA neuron death, or whether generalized metabolic abnormalities within the degenerating DA neurons cause secondary damage to mitochondria. We have used a reverse genetic approach to investigate this question and created conditional knockout mice (termed MitoPark mice), with disruption of the gene for mitochondrial transcription factor A (Tfam) in DA neurons. The knockout mice have reduced mtDNA expression and respiratory chain deficiency in midbrain DA neurons, which, in turn, leads to a parkinsonism phenotype with adult onset of slowly progressive impairment of motor function accompanied by formation of intraneuronal inclusions and dopamine nerve cell death. Confocal and electron microscopy show that the inclusions contain both mitochondrial protein and membrane components. These experiments demonstrate that respiratory chain dysfunction in DA neurons may be of pathophysiological importance in PD. inclusion | rnitochondria | mtDNA | neurodegeneration | Parkinson

Published

2007

16. Mitochondrial dysfunction in the pathogenesis of Ullrich congenital muscular dystrophy and prospective therapy with cyclosporins

Author

Angelin, Alessia, Tiepolo, Tania, Sabatelli, Patrizia, Grumati, Paolo, Bergamin, Natascha, Golfieri, Cristina, Mattioli, Elisabetta, Gualandi, Francesca, Ferlini, Alessandra, Merlini, Luciano, Maraldi, Nadir M., Bonaldo, Paolo, and Bernardi, Paolo

Subjects

Collagenases -- Research, Mitochondrial DNA -- Research, Muscular dystrophy -- Research, Muscular dystrophy -- Drug therapy, Cyclosporine -- Usage, Cyclosporine -- Research, Science and technology

Abstract

Ullrich congenital muscular dystrophy is a severe genetically and clinically heterogeneous muscle disorder linked to collagen VI deficiency. The pathogenesis of the disease is unknown. To assess the potential role of mitochondrial dysfunction in the onset of muscle fiber death in this form of dystrophy, we studied biopsies and myoblast cultures obtained from patients with different genetic defects of collagen VI and variable clinical presentations of the disease. We identified a latent mitochondrial dysfunction in myoblasts from patients with Ullrich congenital muscular dystrophy that matched an increased occurrence of spontaneous apoptosis. Unlike those in myoblasts from healthy donors, mitochondria in cells from patients depolarized upon addition of oligomycin and displayed ultrastructural alterations that were worsened by treatment with oligomycin. The increased apoptosis, the ultrastructural defects, and the anomalous response to oligomycin could be normalized by [Ca.sup.2+] chelators, by plating cells on collagen VI, and by treatment with cyclosporin A or with the specific cyclophilin inhibitor [methylAla.sup.3][ethylVal.sup.4]-cyclosporin, which does not affect calcineurin activity. Here we demonstrate that mitochondrial dysfunction plays an important role in muscle cell wasting in Ullrich congenital muscular dystrophy. This study represents an essential step toward a pharmacological therapy of Ullrich congenital muscular dystrophy with cyclosporin A and [methylAla.sup.3][ethylVal.sup.4] cyclosporin. collagen VI | mitochondria | permeability transition

Published

2007

17. Sequence-specific modification of mitochondrial DNA using a chimeric zinc finger methylase

Author

Minczuk, Michal, Papworth, Monika A., Kolasinska, Paulina, Murphy, Michael P., and Klug, Aaron

Subjects

Mitochondrial DNA -- Research, Gene therapy -- Usage, Gene therapy -- Research, Zinc finger proteins -- Usage, Science and technology

Abstract

We used engineered zinc finger peptides (ZFPs) to bind selectively to predetermined sequences in human mtDNA. Surprisingly, we found that engineered ZFPs cannot be reliably routed to mitochondria by using only conventional mitochondrial targeting sequences. We here show that addition of a nuclear export signal allows zinc finger chimeric enzymes to be imported into human mitochondria. The selective binding of mitochondria-specific ZFPs to mtDNA was exemplified by targeting the T8993G mutation, which causes two mitochondrial diseases, neurogenic muscle weakness, ataxia, and retinitis pigmentosa (NARP) and also maternally inherited Leigh's syndrome. To develop a system that allows the monitoring of site-specific alteration of mtDNA we combined a ZFP with the easily assayed DNA-modifying activity of hDNMT3a methylase. Expression of the mutation-specific chimeric methylase resulted in the selective methylation of cytosines adjacent to the mutation site. This is a proof of principle that it is possible to target and alter mtDNA in a sequence-specific manner by using zinc finger technology. gene therapy | mitochondria | mitochondrial diseases | synthetic zinc finger peptides | nuclear export signal

Published

2006

18. Mitochondrial deoxynucleotide pool sizes in mouse liver and evidence for a transport mechanism for thymidine monophosphate

Author

Ferraro, Paola, Nicolosi, Luca, Bernardi, Paolo, Reichard, Peter, and Bianchi, Vera

Subjects

Pyrimidine nucleotides -- Research, Mitochondrial diseases -- Care and treatment, Mitochondrial diseases -- Research, Mitochondrial DNA -- Research, Deoxyribonucleotides -- Research, Science and technology

Abstract

Dividing cultured cells contain much larger pools of the four dNTPs than resting cells. In both cases the sizes of the individual pools are only moderately different. The same applies to mitochondrial (mt) pools of cultured cells. Song et al. [Song S, Pursell ZF, Copeland WC, Longley M J, Kunkel TA, Mathews CK (2005) Proc Natl Acad Sci USA 102:4990-4995] reported that mt pools of rat tissues instead are highly asymmetric, with the dGTP pool in some cases being several-hundred-fold larger than the dTTP pool, and suggested that the asymmetry contributes to increased mutagenesis during mt DNA replication. We have now investigated this discrepancy and determined the size of each dNTP pool in mouse liver mitochondria. We found large variations in pool sizes that closely followed variations in the ATP pool and depended on the length of time spent in the preparation of mitochondria. The proportion between dNTPs was in all cases without major asymmetries and similar to those found earlier in cultured resting cells. We also investigated the import and export of thymidine phosphates in mouse liver mitochondria and provide evidence for a rapid, highly selective, and saturable import of dTMP, not depending on a functional respiratory chain. At nM external dTMP the nucleotide is concentrated 100-fold inside the mt matrix. Export of thymidine phosphates was much slower and possibly occurred at the level of dTDP. mitochondrial diseases | mitochondrial DNA | regulation of mitochondrial dNTP pools

Published

2006

19. Recent Southeast Asian domestication and Lapita dispersal of sacred male pseudohermaphroditic 'tuskers' and hairless pigs of Vanuatu

Author

Lum, J. Koji, McIntyre, James K., Greger, Douglas L., Huffman, Kirk W., and Vilar, Miguel G.

Subjects

Mitochondrial DNA -- Research, Swine -- Genetic aspects, Swine -- Research, Science and technology

Abstract

Recent analyses of global pig populations revealed strict correlations between mtDNA phylogenies and geographic locations. An exception was the monophyletic 'Pacific clade' (PC) of pigs not previously linked to any specific location. We examined mtDNA sequences of two varieties of Vanuatu sacred pigs, the male pseudohermaphroditic Narave from the island of Malo (n = 9) and the hairless Kapia from the island of Tanna (n = 9), as well as control pigs (n = 21) from the islands of Malo, Tanna, and Epi and compared them with GenBank sequences to determine (11 the distribution of PC and introduced domestic lineages within Vanuatu, (ii) relationship between the Narave and Kapia, and (iii) origin of the PC. All of the Narave share two PC mtDNA sequences, one of which matches the sequence of a Narave collected in 1927, consistent with an unbroken maternal descent of these intersex pigs from the original pigs brought to Vanuatu 3,200 years ago. One-third of the Kapia share a single PC lineage also found in the Narave. The remaining Kapia lineages are associated with recently introduced, globally distributed domestic breeds. The predominant Narave lineage is also shared with two wild boars from Vietnam. These data suggest that PC pigs were recently domesticated within Southeast Asia and dispersed during the human colonization of Remote Oceania associated with the Lapita cultural complex. More extensive sampling of Southeast Asian wild boar diversity may refine the location of Pacific pig domestication and potentially the proximate homeland of the Lapita cultural complex. mtDNA | Pacific | Remote Oceania | Sus scrofa

Published

2006

20. Divergent mtDNA lineages of goats in an Early Neolithic site, far from the initial domestication areas

Author

Fernandez, Helena, Hughes, Sandrine, Vigne, Jean-Denis, Helmer, Daniel, Hodgins, Greg, Miquel, Christian, Hanni, Catherine, Luikart, Gordon, and Taberlet, Pierre

Subjects

Goats -- Genetic aspects, Goats -- Origin, Mitochondrial DNA -- Research, Science and technology

Abstract

Goats were among the first farm animals domesticated, [approximately equal to] 10,500 years ago, contributing to the rise of the 'Neolithic revolution.' Previous genetic studies have revealed that contemporary domestic goats (Capra hircus) show far weaker intercontinental population structuring than other livestock species, suggesting that goats have been transported more extensively. However, the timing of these extensive movements in goats remains unknown. To address this question, we analyzed mtDNA sequences from 19 ancient goat bones (7,300-6,900 years old) from one of the earliest Neolithic sites in southwestern Europe. Phylogenetic analysis revealed that two highly divergent goat lineages coexisted in each of the two Early Neolithic layers of this site. This finding indicates that high mtDNA diversity was already present >7,000 years ago in European goats, far from their areas of initial domestication in the Near East. These results argue for substantial gene flow among goat populations dating back to the early neolithisation of Europe and for a dual domestication scenario in the Near East, with two independent but essentially contemporary origins (of both A and C domestic lineages) and several more remote and/or later origins. archaeology | ancient DNA | livestock origins | Neolithic expansion | Capra

Published

2006

21. Transaldolase is essential for maintenance of the mitochondrial transmembrane potential and fertility of spermatozoa

Author

Perl, Andras, Qian, Yueming, Chohan, Kazim R., Shirley, Cynthia R., Amidon, Wendy, Banerjee, Sanjay, Middleton, Frank A., Conkrite, Karina L., Barcza, Maureen, Gonchoroff, Nick, Suarez, Susan S., and Banki, Katalin

Subjects

Spermatozoa -- Research, Mitochondrial DNA -- Research, Oxidation-reduction reaction -- Analysis, Cellular control mechanisms -- Research, Science and technology

Abstract

Fertility of spermatozoa depends on maintenance of the mitochondrial transmembrane potential ([DELTA][[psi].sub.m]), which is generated by the electron-transport chain and regulated by an oxidation-reduction equilibrium of reactive oxygen intermediates, pyridine nucleotides, and glutathione (GSH). Here, we report that male mice lacking transaldolase [(TAL).sup.-/-] are sterile because of defective forward motility. [TAL.sup.-/-] spermatozoa show loss of [DELTA][[psi].sub.m] and mitochondrial membrane integrity because of diminished NADPH, NADH, and GSH. Mitochondria constitute major [Ca.sup.2+] stores; thus, diminished mitochondrial mass accounts for reduced [Ca.sup.2+] fluxing, defective forward motility, and infertility. Reduced forward progression of TAL-deficient spermatozoa is associated with diminished mitochondrial reactive oxygen intermediate production and [Ca.sup.2+] levels, intracellular acidosis, and compensatory down-regulation of carbonic anhydrase IV and overexpression of CD38 and [gamma]-glutamyl transferase. Microarray analyses of gene expression in the testis, caput, and cauda epididymidis of TA[L.sup.+/+], TA[L.sup.+/-], and TA[L.sup.-/-] littermates confirmed a dominant impact of TAL deficiency on late stages of sperm-cell development, affecting the electron-transport chain and GSH metabolism. Stimulation of de novo GSH synthesis by oral N-acetyl-cysteine normalized the low fertility rate of TA[L.sup.+/-] males without affecting the sterility of TA[L.sup.-/-] males. Whereas TA[L.sup.-/-] sperm failed to fertilize TA[L.sup.+/+] oocytes in vitro, sterility of TA[L.sup.-/-] sperm was circumvented by intracytoplasmic sperm injection, indicating that TAL deficiency influenced the structure and function of mitochondria without compromising the nucleus and DNA integrity. Collectively, these data reveal an essential role of TAL in sperm-cell mitochondrial function and, thus, male fertility.

Published

2006

22. The origin of European cattle: evidence from modern and ancient DNA

Author

Beja-Pereira, Albano, Caramelli, David, Lalueza-Fox, Carles, Vernesi, Cristiano, Ferrand, Nuno, Casoli, Antonella, Goyache, Felix, Royo, Luis J., Conti, Serena, Lari, Martina, Martini, Andrea, Ouragh, Lahousine, Magid, Ayed, Atash, Abdulkarim, Zsolnai, Attila, Boscato, Paolo, Triantaphylidis, Costas, Ploumi, Konstantoula, Sineo, Luca, Mallegni, Francesco, Taberlet, Pierre, Erhardt, Georg, Sampietro, Lourdes, Bertranpetit, Jaume, Barbujani, Guido, Luikart, Gordon, and Bertorelle, Giorgio

Subjects

Mitochondrial DNA -- Research, Domestication -- Research, Cattle -- Research, Science and technology

Abstract

Cattle domestication from wild aurochsen was among the most important innovations during the Neolithic agricultural revolution. The available genetic and archaeological evidence points to at least two major sites of domestication in India and in the Near East, where zebu and the taurine breeds would have emerged independently. Under this hypothesis, all present-day European breeds would be descended from cattle domesticated in the Near East and subsequently spread during the diffusion of herding and farming lifestyles. We present here previously undescribed genetic evidence in contrast with this view, based on mtDNA sequences from five Italian aurochsen dated between 7,000 and 17,000 years B.P. and > 1,000 modern cattle from 51 breeds. Our data are compatible with local domestication events in Europe and support at least some levels of introgression from the aurochs in Italy. The distribution of genetic variation in modern cattle suggest also that different south European breeds were affected by introductions from northern Africa. If so, the European cattle may represent a more variable and valuable genetic resource than previously realized, and previous simple hypotheses regarding the domestication process and the diffusion of selected breeds should be revised. domestication | Europe | mtDNA | aurochs

Published

2006

23. Serial coalescent simulations suggest a weak genealogical relationship between Etruscans and modern Tuscans

Author

Belle, Elise M.S., Ramakrishnan, Uma, Mountain, Joanna L., and Barbujani, Guido

Subjects

Mitochondrial DNA -- Research, Etruscans -- Research, Etruscans -- Genetic aspects, Science and technology

Abstract

The Etruscans, the only preclassical European population that has been genetically characterized so far, share only two haplotypes with their modern geographic counterparts, the Tuscans, who, nonetheless, appear to be their closest relatives. We modeled 10 demographic scenarios spanning the last 2,500 years and tested by serial coalescent simulation whether any are consistent with the patterns of genetic diversity observed within and between the Etruscan and the modern Tuscan populations. Models in which the Etruscans are the direct ancestors of modern Tuscans appear compatible with the observed data only when they also include a very high mutation rate and an ancient founder effect. A better fit was obtained when the ancient and the modern samples were extracted from two independently evolving populations, connected by little migration. Simulated and observed parameters were also similar for a scenario in which the ancient samples came from a subset, e.g., a social elite, genetically differentiated from the bulk of the Etruscan population. in principle, these results may be biased by factors such as gross and systematic errors in the ancient DNA sequences and failure to sample suitable modern individuals. if neither proves to be the case, this study strongly suggests that either the mitochondrial mutation rate is much higher than currently believed or the Etruscans left very few modern mitochondrial descendants. ancient DNA | mtDNA | population genetics

Published

2006

24. Post-Miocene expansion, colonization, and host switching drove speciation among extant nematodes of the archaic genus Trichinella

Author

Zarlenga, D.S., Rosenthal, B.M., La Rosa, G., Pozio, E., and Hoberg, E.P.

Subjects

Nematoda -- Genetic aspects, Nematoda -- Research, Mitochondrial DNA -- Research, Phylogeny -- Research, Science and technology

Abstract

Parasitic nematodes of the genus Trichinella cause significant food-borne illness and occupy a unique evolutionary position at the base of the phylum Nematoda, unlike the free-living nematode Caenorhabditis elegans. Although the forthcoming genome sequence of Trichinella spiralis can provide invaluable comparative information about nematode biology, a basic framework for understanding the history of the genus Trichinella is needed to maximize its utility. We therefore developed the first robust and comprehensive analysis of the phylogeny and biogeographic history of Trichinella using the variation in three genes (nuclear small-subunit rDNA, and second internal transcribed spacer, mitochondrial large-subunit rDNA, and cytochrome oxidase I DNA) from all 11 recognized taxa. We conclude that (i) although Trichinellidae may have diverged from their closest extant relatives during the Paleozoic, all contemporary species of Trichinella diversified within the last 20 million years through geographic colonization and pervasive host switching among foraging guilds of obligate carnivores; (ii) mammalian carnivores disseminated encapsulated forms from Eurasia to Africa during the late Miocene and Pliocene, and to the Nearctic across the Bering Land Bridge during the Pliocene and Pleistocene, when crown species ultimately diversified; (iii) the greatest risk to human health is posed by those species retaining an ancestral capacity to parasitize a wide range of hosts; and (iv) early hominids may have first acquired Trichinella on the African savannah several million years before swine domestication as their diets shifted from herbivory to facultative carnivory. biogeography | mitochondrial DNA | phylogeny | ribosomal DNA

Published

2006

25. Phylogeny, evolution, and biogeography of Asiatic Salamanders (Hynobiidae)

Author

Zhang, Peng, Chen, Yue-Qin, Zhou, Hui, Liu, Yi-Fei, Wang, Xiu-Ling, Papenfuss, Theodore J., Wake, David B., and Qu, Liang-Hu

Subjects

Mitochondrial DNA -- Research, Phylogeny -- Research, Salamanders -- Genetic aspects, Salamanders -- Research, Science and technology

Abstract

We sequenced 15 complete mitochondrial genomes and performed comprehensive molecular phylogenetic analyses to study the origin and phylogeny of the Hynobiidae, an ancient lineage of living salamanders. Our phylogenetic analyses show that the Hynobiidae is a clade with well resolved relationships, and our results contrast with a morphology-based phylogenetic hypothesis. These salamanders have low vagility and are limited in their distribution primarily by deserts, mountains, and oceans. Our analysis suggests that the relationships among living hynobiids have been shaped primarily by geography. We show that four-toed species assigned to Batrachuperus do not form a monophyletic group, and those that occur in Afghanistan and Iran are transferred to the resurrected Paradactylodon. Convergent morphological characters in different hynobiid lineages are likely produced by similar environmental selective pressures. Clock-independent molecular dating suggests that hynobiids originated in the Middle Cretaceous [[approximately equal to] 110 million years ago (Mya)]. We propose an 'out of North China' hypothesis for hynobiid origins and hypothesize an ancestral stream-adapted form. Given the particular distributional patterns and our molecular dating estimates, we hypothesize that: (i) the interior desertification from Mongolia to Western Asia began [approximately equal to] 50 Mya; (ii) the Tibetan plateau (at least on the eastern fringe) experienced rapid uplift [approximately equal to] 40 Mya and reached an altitude of at least 2,500 m; and (iii) the Ailao-Red River shear zone underwent the most intense orogenic movement [approximately equal to] 24 Mya. mitochondrial DNA | phylogenetics | homoplasy | Tibetan Plateau

Published

2006

26. High-efficiency biolistic transformation of Chlamydomonas mitochondria can be used to insert mutations in complex I genes

Author

Remacle, Claire, Cardol, Pierre, Coosemans, Nadine, Gaisne, Mauricette, and Bonnefoy, Nathalie

Subjects

Chlamydomonas -- Genetic aspects, Chlamydomonas -- Research, Mutagenesis -- Research, Mitochondrial DNA -- Research, Science and technology

Abstract

Mitochondrial transformation of Chlamydomonas reinhardtii has been optimized by using a particle-gun device and cloned mitochondrial DNA or PCR fragments. A respiratory-deficient strain lacking a 1.2-kb mitochondrial DNA region including the left telomere and part of the cob gene could be rescued as well as a double-frameshift mutant in the mitochondrial cox1 and nd1 genes. High transformation efficiency has been achieved (100-250 transformants per microgram of DNA), the best results being obtained with linearized plasmid DNA. Molecular analysis of the transformants suggests that the right telomere sequence can be copied to reconstruct the left telomere by recombination. In addition, both nondeleterious and deleterious mutations could be introduced. Myxothiazol-resistant transformants have been created by introducing a nucleotide substitution into the cob gene. Similarly, an in-frame deletion of 23 codons has been created in the nd4 mitochondrial gene of both the deleted and frameshift recipient strains. These 23 codons are believed to encode the first transmembrane segment of the ND4 protein. This [DELTA]nd4 mutation causes a misassembly of complex I, with the accumulation of a subcomplex that is 250-kDa smaller than the wild-type complex I. The availability of efficient mitochondrial transformation in Chlamydomonas provides an invaluable tool for the study of mitochondrial biogenesis and, more specifically, for site-directed mutagenesis of mitochondrially encoded subunits of complex I, of special interest because the yeast Saccharomyces cerevisiae, whose mitochondrial genome can be manipulated virtually at will, is lacking complex I. green alga | mitochondrial DNA mutagenesis | telomere | complex | assembly | respiratory-deficient mutant

Published

2006

27. Active digestion of sperm mitochondrial DNA in single living sperm revealed by optical tweezers

Author

Nishimura, Yoshiki, Yoshinari, Tomoya, Naruse, Kiyoshi, Yamada, Takeshi, Sumi, Kazuyoshi, Mitani, Hiroshi, Higashiyama, Tetsuya, and Kuroiwa, Tsuneyoshi

Subjects

Fertilization (Biology) -- Research, Germ cells -- Research, Mitochondrial DNA -- Structure, Mitochondrial DNA -- Research, Proteolysis -- Analysis, Science and technology

Abstract

In almost all eukaryotes, mitochondrial (mt) genes are transmitted to progeny mainly from the maternal parent. The most popular explanation for this phenomenon is simple dilution of paternal mtDNA, because the paternal gametes (sperm) are much smaller than maternal gametes (egg) and contribute a limited amount of mitochondria to the progeny. Recently, this simple explanation has been challenged in several reports that describe the active digestion of sperm mtDNA, down-regulation of mtDNA replication in sperm, and proteolysis of mitochondria triggered by ubiquitination. In this investigation, we visualized mt nucleoids in living sperm by using highly sensitive SYBR green I vital staining. The ability to visualize mt nucleoids allowed us to clarify that the elimination of sperm mtDNA upon fertilization is achieved through two steps: (i) gradual decrease of mt nucleoid numbers during spermatogenesis and (ii) rapid digestion of sperm mtDNA just after fertilization. One notable point is that the digestion of mtDNA is achieved before the complete destruction of mitochondrial structures, which may be necessary to avoid the diffusion and transmission of potentially deleterious sperm mtDNA to the progeny. maternal inheritance | medaka | mtDNA

Published

2006

28. Mitochondrial transfer between cells can rescue aerobic respiration

Author

Spees, Jeffrey L., Olson, Scott D., Whitney, Mandolin J., and Prockop, Darwin J.

Subjects

Mitochondrial DNA -- Research, Eukaryotes -- Research, Science and technology

Abstract

Current theory indicates that mitochondria were obtained 1.5 billion years ago from an ancient prokaryote. The mitochondria provided the capacity for aerobic respiration, the creation of the eukaryotic cell, and eventually complex multicellular organisms. Recent reports have found that mitochondria play essential roles in aging and determining lifespan. A variety of heritable and acquired diseases are linked to mitochondrial dysfunction. We report here that mitochondria are more dynamic than previously considered: mitochondria or mtDNA can move between cells. The active transfer from adult stem cells and somatic cells can rescue aerobic respiration in mammalian cells with nonfunctional mitochondria. human bone marrow | nonhematopoietic | stem/progenitor cells | ischemia

Published

2006

29. Mitochondrial DNA mutations are established in human colonic stem cells, and mutated clones expand by crypt fission

Author

Greaves, Laura C., Preston, Sean L., Tadrous, Paul J., Taylor, Robert W., Barron, Martin J., Oukrif, Dahmane, Leedham, Simon J., Deheragoda, Maesha, Sasieni, Peter, Novelli, Marco R., Jankowski, Janusz A.Z., Turnbull, Douglass M., Wright, Nicholas A., and McDonald, Stuart A.C.

Subjects

Gene mutations -- Research, Human cloning -- Research, Mitochondrial DNA -- Research, Stem cells -- Structure, Stem cells -- Research, Science and technology

Abstract

The understanding of the fixation of mutations within human tissues and their subsequent clonal expansion is a considerable problem, of which little is known. We have previously shown that nononcogenic mutations in the mitochondrial genome occur in one of a number of morphologically normal colonic crypt stem cells, the progeny of which later occupy the whole crypt. We propose that these wholly mutated crypts then clonally expand by crypt fission, where each crypt divides into two mutated daughter crypts. Here we show that (i) mutated crypts in the process of fission share the same mutated mitochondrial genotype not present in neighboring cytochrome c oxidase-positive crypts (the odds of this being a random event are [greater than or equal to] 2.48 x [10.sup.9]:1); (ii) neighboring mutated crypts have the same genotype, which is different from adjacent cytochrome c oxidase-positive crypts; (iii) mutated crypts are clustered together throughout the colon; and (iv) patches of cytochrome c oxidase-deficient crypts increase in size with age. We thus demonstrate definitively that crypt fission is the mechanism by which mutations spread in the normal human colon. This has important implications for the biology of the normal adult human colon and possibly for the growth and spread of colorectal neoplasms. fission | mitochondria

Published

2006

30. Mutant mitochondrial helicase Twinkle causes multiple mtDNA deletions and a late-onset mitochondrial disease in mice

Author

Tyynismaa, Henna, Mjosund, Katja Peltola, Wanrooij, Sjoerd, Lappalainen, Ilse, Ylikallio, Ernil, Jalanko, Anu, Spelbrink, Johannes N., Paetau, Anders, and Suomalainen, Anu

Subjects

Mitochondrial DNA -- Research, Oculomotor paralysis -- Research, DNA replication -- Research, Eye -- Paralysis, Eye -- Research, Science and technology

Abstract

Defects of mitochondrial DNA (mtDNA) maintenance have recently been associated with inherited neurodegenerative and muscle diseases and the aging process. Twinkle is a nuclear-encoded mtDNA helicase, dominant mutations of which cause adult-onset progressive external ophthalmoplegia (PEO) with multiple mtDNA deletions. We have generated transgenic mice expressing mouse Twinkle with PEO patient mutations. Multiple mtDNA deletions accumulate in the tissues of these mice, resulting in progressive respiratory dysfunction and chronic late-onset mitochondrial disease starting at 1 year of age. The muscles of the mice faithfully replicate all of the key histological, genetic, and biochemical features of PEO patients. Furthermore, the mice have progressive deficiency of cytochrome c oxidase in distinct neuronal populations. These 'deletor' mice do not, however, show premature aging, indicating that subtle accumulation of mtDNA deletions and progressive respiratory chain dysfunction are not sufficient to accelerate aging. This model is a valuable tool for therapy development and testing for adult-onset mitochondrial disorders. mouse model | progressive external ophthalmoplegia | mitochondrial DNA replication

Published

2005

31. Gene therapy for progeny of mito-mice carrying pathogenic mtDNA by nuclear transplantation

Author

Sato, Akitsugu, Kono, Tomohiro, Nakada, Kazuto, Ishikawa, Kaori, Inoue, Shin-Ichi, Yonekawa, Hiromichi, and Hayashi, Jun-Ichi

Subjects

Gene therapy -- Research, Mitochondrial DNA -- Research, Mitochondrial diseases -- Research, Science and technology

Abstract

Pathogenic mutations in mtDNAs have been shown to be responsible for expression of respiration defects and resultant expression of mitochondrial diseases. This study directly addressed the issue of gene therapy of mitochondrial diseases by using nuclear transplantation of zygotes of transmitochondria mice (mito-mice). Mitomice expressed respiration defects and mitochondrial diseases due to accumulation of mtDNA carrying a large-scale deletion ([DELTA]mtDNA). Second polar bodies were used as biopsy samples for diagnosis of mtDNA genotypes of mito-mouse zygotes. Nuclear transplantation was carried out from mito-mouse zygotes to enucleated normal zygotes and was shown to rescue all of the [F.sub.0] progeny from expression of respiration defects throughout their lives. This procedure should be applicable to patients with mitochondrial diseases for preventing their children from developing the diseases. mitochondrial disease | mitochondrial DNA

Published

2005

32. Rapid directional shift of mitochondrial DNA heteroplasmy in animal tissues by a mitochondrially targeted restriction endonuclease

Author

Bayona-Bafaluy, Maria Pilar, Blits, Bas, Battersby, Brendan J., Shoubridge, Eric A., and Moraes, Carlos T.

Subjects

Mitochondria -- Research, Gene therapy -- Research, Mitochondrial DNA -- Research, Science and technology

Abstract

Frequently, mtDNA with pathogenic mutations coexist with wild-type genomes (mtDNA heteroplasmy). Mitochondrial dysfunction and disease ensue only when the proportion of mutated mtDNAs is high, thus a reduction in this proportion should provide an effective therapy for these disorders. We developed a system to decrease specific mtDNA haplotypes by expressing a mitochondrially targeted restriction endonuclease, ApaLI, in cells of heteroplasmic mice. These mice have two mtDNA haplotypes, of which only one contains an ApaLI site. After transfection of cultured hepatocytes with mitochondrially targeted ApaLI, we found a rapid, directional, and complete shift in mtDNA heteroplasmy (2-6 h). We tested the efficacy of this approach in vivo, by using recombinant viral vectors expressing the mitochondrially targeted ApaLI. We observed a significant shift in mtDNA heteroplasmy in muscle and brain transduced with recombinant viruses. This strategy could prevent disease onset or reverse clinical symptoms in patients harboring certain heteroplasmic pathogenic mutations in mtDNA. gene therapy | mitochondria

Published

2005

33. Ancient mitochondrial M haplogroups identified in the Southwest Pacific

Author

Merriwether, D. Andrew, Hodgson, Jason A., Friedlaender, Francoise R., Allaby, Robin, Cerchio, Salvatore, Koki, George, and Friedlaender, Jonathan S.

Subjects

Paleodemography -- Research, Mitochondrial DNA -- Research, Science and technology

Abstract

Based on whole mtDNA sequencing of 14 samples from Northern Island Melanesia, we characterize three formerly unresolved branches of macrohaplogroup M that we call haplogroups M27, M28, and M29. Our 1,399 mtDNA control region sequences and a literature search indicate these haplogroups have extremely limited geographical distributions. Their coding region variation suggests diversification times older than the estimated date for the initial settlement of Northern Island Melanesia. This finding indicates that they were among the earliest mtDNA variants to appear in these islands or in the ancient continent of Sahul. These haplogroups from Northern Island Melanesia extend the existing schema for macrohaplogroup M, with many independent branches distributed across Asia, East Africa, Australia, and Near Oceania. Island Melanesia | phylogeography | paleodemography | molecular evolution | Papua New Guinea

Published

2005

34. Prehistoric contacts over the Straits of Gibraltar indicated by genetic analysis of Iberian Bronze Age cattle

Author

Anderung, Cecilia, Bouwman, Abigail, Persson, Per, Carretero, Jose Miguel, Ortega, Ana Isabel, Elburg, Rengert, Smith, Colin, Arsuaga, Juan Luis, Ellegren, Hans, and Gotherstrom, Anders

Subjects

Gibraltar -- Research, Mitochondrial DNA -- Research, Tectonics (Geology) -- Research, Science and technology

Abstract

The geographic situation of the Iberian Peninsula makes it a natural link between Europe and North Africa. However, it is a matter of debate to what extent African influences via the Straits Gibraltar have affected Iberia's prehistoric development. Because early African pastoralist communities were dedicated to cattle breeding, a possible means to detect prehistoric African-Iberian contacts might be to analyze the origin of cattle breeds on the Iberian Peninsula. Some contemporary Iberian cattle breeds show a mtDNA haplotype, T1, that is characteristic to African breeds, generally explained as being the result of the Muslim expansion of the 8th century A.D., and of modern imports. To test a possible earlier African influence, we analyzed mtDNA of Bronze Age cattle from the Portalon cave at the Atapuerca site in northern Spain. Although the majority of samples showed the haplotype T3 that dominates among European breeds of today, the T1 haplotype was found in one specimen radiocarbon dated 1800 calibrated years B.C. Accepting T1 as being of African origin, this result indicates prehistoric African-Iberian contacts and lends support to archaeological finds linking early African and Iberian cultures. We also found a wild ox haplotype in the Iberian Bronze Age sample, reflecting local hybridization or backcrossing or that aurochs were hunted by these farming cultures. ancient DNA | aurochs | Iberian cattle | mithochondrial DNA | Africa

Published

2005

35. Phylogeography of Barbary macaques (Macaca sylvanus) and the origin of the Gibraltar colony

Author

Modolo, Lara, Salzburger, Walter, and Martin, Robert D.

Subjects

Mitochondrial DNA -- Research, Macaques -- Research, Science and technology

Abstract

The Barbary macaque (Macaca sylvanus) is the earliest offshoot of the genus Macaca and the only extant African representative, all other species being Asiatic. Once distributed throughout North Africa, M. sylvanus is now restricted to isolated forest fragments in Algeria and Morocco. The species is threatened; the maximum total wild population size is estimated at 10,000 individuals. Relationships among surviving wild subpopulations in Algeria (96 samples) and Morocco (116 samples) were examined by using 468-bp sequences from hypervariable region I of the mitochondrial DNA control region. Twenty-four different haplotypes were identified, differing by 1-26 mutational steps (0.2-5.6%) and 1 insertion. With one exception (attributable to secondary introduction in coastal Morocco), Algerian and Moroccan haplotypes are clearly distinct. However, whereas Moroccan subpopulations show little divergence in hypervariable region I sequences and little correspondence with geographical distribution, there is a deep division between two main subpopulations in Algeria and one marked secondary division, with haplotypes generally matching geographical distribution. Accepting an origin of the genus Macaca of 5.5 million years ago, the Moroccan population and the two main Algerian subpopulations diverged [approximately equal to] 1.6 million years ago. Distinction between Moroccan and Algerian haplotypes permitted analysis of the origin of the Gibraltar colony of Barbary macaques (68 samples; 30% of the population). It is generally held that the present Gibraltar population descended from a dozen individuals imported during World War II. However, the Gibraltar sample was found to include Algerian and Moroccan haplotypes separated by at least 16 mutational steps, revealing a dual origin of the founding females. conservation | fragmentation | haplotype network | molecular clock | mtDNA

Published

2005

36. Specific correlation between the wobble modification deficiency in mutant tRNAs and the clinical features of a human mitochondrial disease

Author

Kirino, Yohei, Goto, Yu-ichi, Campos, Yolanda, Arenas, Joaquin, and Suzuki, Tsutomu

Subjects

Mitochondrial diseases -- Research, Mitochondrial DNA -- Research, Science and technology

Abstract

Mutations in mtDNA are responsible for a variety of mitochondrial diseases, where the mitochondrial [tRNA.sup.Leu(UUR)] gene has especially hot spots for pathogenic mutations. Clinical features often depend on the tRNA species and/or positions of the mutations; however, molecular pathogenesis elucidating the relation between the location of the mutations and their leading phenotype are not fully understood. We report here that mitochondrial [tRNAs.sup.Leu(UUR)] harboring one of five mutations found in tissues from patients with symptoms of mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes (MELAS) (A3243G, G3244A, T3258C, T3271C, and T3291C) lacked the normal taurine-containing modification (5-taurinomethyluridine) at the anticodon wobble position. In contrast, mitochondrial [tRNAs.sup.Leu(UUR)] with different mutations found in patients that have mitochondrial diseases but do not show the MELAS symptoms (G3242A, T3250C, C3254T, and A3280G) had the normal 5-taurinomethyluridine modifications. These observations were made by using a modified primer extension technique that can detect the modification deficiency in the extremely limited quantities of mutant tRNAs obtainable from patient tissues. These results strongly suggest deficient wobble modification could be a key molecular factor responsible for the phenotypic features of MELAS, which can explain why the different MELAS-associated mutations result in indistinguishable clinical features. mitochondrial tRNA | taurine modification

Published

2005

37. A late Neandertal femur from Les Rochers-de-Villeneuve, France

Author

Beauval, Cedric, Maureille, Bruno, Lacrampe-Cuyaubere, Francois, Serre, David, Peressinotto, David, Bordes, Jean-Guillaume, Cochard, David, Couchoud, Isabelle, Dubrasquet, David, Laroulandie, Veronique, Lenoble, Arnaud, Mallye, Jean-Baptiste, Pasty, Sylvain, Primault, Jerome, Rohland, Nadin, Paabo, Svante, and Trinkaus, Erik

Subjects

Mitochondrial DNA -- Research, Neanderthals -- Research, Fossil hominids -- Research, Science and technology

Abstract

In 2002, a Neandertal partial femoral diaphysis was discovered at Les Rochers-de-Villeneuve (Vienne, France). Radiocarbon dated to [approximately equal to] 40,700 [14.sup.C] years before present, this specimen is one of the most recent Middle Paleolithic Neandertals. The diaphysis derives from an archeological level indicating alternating human and carnivore (mostly hyena) occupation of the cave, reinforcing the close proximity and probable competition of Middle Paleolithic humans with large carnivores for resources and space. Morphological aspects of the diaphysis and ancient DNA extracted from it indicate that it is aligned with the Neandertals and is distinct from early modern humans. However, its midshaft cortical bone distribution places it between other Middle Paleolithic Neandertals and the Chatelperronian Neandertal from La Roche-a-Pierrot, supporting a pattern of changing mobility patterns among late Middle Paleolithic Neandertals on the eve of modern human dispersals into Europe. hyene | Middle Paleolithic | mitochondrial DNA | mobility

Published

2005

38. Rare creation of recombinant mtDNA haplotypes in mammalian tissues

Author

Sato, Akitsugu, Nakada, Kazuto, Akimoto, Miho, Ishikawa, Kaori, Ono, Tomoko, Shitara, Hiroshi, Yonekawa, Hiromichi, and Hayashi, Jun-Ichi

Subjects

Mitochondrial DNA -- Research, Science and technology

Abstract

The problem of whether recombinant mtDNAs are created in mammalian cells has been controversial for many years. We show convincing evidence for the very rare creation of recombinant mtDNA haplotypes by isolating human somatic hybrid cells and by generating mice carrying two different mtDNA haplotypes. To avoid misinterpretation of PCR-jumping products as recombinants, we used purified mtDNAs for cloning and sequencing. The results showed that only three of 318 clones of mtDNA purified from mouse tissues corresponded to recombinant mtDNA haplotypes, whereas no recombinants were found in human somatic hybrid cells. Such an extremely low frequency of mtDNA recombination does not require any revision of important concepts on human evolution that are based on its absence. Considering the high concentration of reactive oxygen species around the mtDNA and its frequent strand breakage, recombinant clones would correspond to gene conversion products created by repair of nucleotide mismatches. mammalian mtDNA | gene conversion | somatic hybrids | mito-mice | PCR jumping

Published

2005

39. Decline in skeletal muscle mitochondrial function with aging in humans

Author

Short, Kevin R., Bigelow, Maureen L., Kahl, Jane, Singh, Ravinder, Coenen-Schimke, Jill, Raghavakaimal, Sreekumar, and Nair, K. Sreekumaran

Subjects

Proteins -- Research, Mitochondrial DNA -- Research, Muscles -- Research, Science and technology

Abstract

Cumulative mtDNA damage occurs in aging animals, and mtDNA mutations are reported to accelerate aging in mice. We determined whether aging results in increased DNA oxidative damage and reduced mtDNA abundance and mitochondrial function in skeletal muscle of human subjects. Studies performed in 146 healthy men and women aged 18-89 yr demonstrated that mtDNA and mRNA abundance and mitochondrial ATP production all declined with advancing age. Abundance of mtDNA was positively related to mitochondrial ATP production rate, which in turn, was closely associated with aerobic capacity and glucose tolerance. The content of several mitochondrial proteins was reduced in older muscles, whereas the level of the oxidative DNA lesion, 8-oxo-deoxyguanosine, was increased, supporting the oxidative damage theory of aging. These results demonstrate that age-related muscle mitochondrial dysfunction is related to reduced mtDNA and muscle functional changes that are common in the elderly. sarcopenia mtDNA | oxidative damage | mRNA mitochondrial proteins

Published

2005

40. Differential shuffling of native genetic diversity across introduced regions in a brown alga: aquaculture vs. maritime traffic effects

Author

Voisin, Marie, Engel, Carolyn R., and Viard, Frederique

Subjects

Coasts -- Research, Mitochondrial DNA -- Research, Habitat (Ecology) -- Research, Algae -- Research, Invasive species -- Research, Science and technology

Abstract

Worldwide marine invaders, such as the brown alga Undaria pinnatifida, offer challenging models for unraveling the apparent paradox of sustainable settlement of exotic species over a large spectrum of environments. Two intergenic noncoding mitochondrial loci were found to be highly informative at the within-species level. Twenty-five haplotypes were found over the whole dataset (333 base pairs, 524 individuals, and 24 populations). The native range showed striking population genetic structure stemming from low diversity within and high differentiation among populations, a pattern not observed in the introduced range of this seaweed. Contrary to classical expectations of founding effects associated with accidental introduction of exotic species, most of the introduced populations showed high genetic diversity. At the regional scale, genetic diversity and sequence divergence showed contrasting patterns in the two main areas of introduction (Europe and Australasia), suggesting different processes of introduction in the two regions. Gene genealogy analyses point to aquaculture as a major vector of introduction and spread in Europe but implicate maritime traffic in promoting recurrent migration events from the native range to Australasia. The multiplicity of processes and genetic signatures associated with the successful invasion confirms that multiple facets of global change, e.g., aquaculture practices, alteration of habitats, and increased traffic, act in synergy at the worldwide level, facilitating successful pandemic introductions. coastal habitats | gene genealogy | introduced species | kelp | mitochondrial DNA

Published

2005

41. Gene flow across linguistic boundaries in Native North American populations

Author

Hunley, Keith and Long, Jeffrey C.

Subjects

Mitochondrial DNA -- Research, Native Americans -- Research, Science and technology

Abstract

Cultural and linguistic groups are often expected to represent genetic populations. In this article, we tested the hypothesis that the hierarchical classification of languages proposed by J. Greenberg [(1987) Language in the Americas (Stanford Univ. Press, Stanford, CA)] also represents the genetic structure of Native North American populations. The genetic data are mtDNA sequences for 17 populations gleaned from literature sources and public databases. The hypothesis was rejected. Further analysis showed that departure of the genetic structure from the linguistic classification was pervasive and not due to an outlier population or a problematic language group. Therefore, Greenberg's language groups are at best an imperfect approximation to the genetic structure of these populations. Moreover, we show that the genetic structure among these Native North American populations departs significantly from the best-fitting hierarchical models. Analysis of median joining networks for mtDNA haplotypes provides strong evidence for gene flow across linguistic boundaries. In principle, the language of a population can be replaced more rapidly than its genes because language can be transmitted both vertically from parents to children and horizontally between unrelated people. However, languages are part of a cultural complex, and there may be strong pressure to maintain a language in place whereas genes are free to flow. language and genetics | mtDNA

Published

2005

42. mtDNA mutations increase tumorigenicity in prostate cancer

Author

Petros, John A., Baumann, Amanda K., Ruiz-Pesini, Eduardo, Amin, Mahul B., Sun, Carrie Qi, Hall, John, Lim, SoDug, Issa, Muta M., Flanders, W. Dana, Hosseini, Seyed H., Marshall, Fray F., and Wallace, Douglas C.

Subjects

Mitochondrial DNA -- Research, Science and technology

Abstract

Mutations in the mtDNA have been found to fulfill all of the criteria expected for pathogenic mutations causing prostate cancer. Focusing on the cytochrome oxidase subunit I (COI) gene, we found that 11-12% of all prostate cancer patients harbored COI mutations that altered conserved amino acids (mean conservation index = 83%), whereas < 2% of no-cancer controls and 7.8% of the general population had COI mutations, the latter altering less conserved amino acids (conservation index = 71%). Four conserved prostate cancer COI mutations were found in multiple independent patients on different mtDNA backgrounds. Three other tumors contained heteroplasmic COI mutations, one of which created a stop codon. This latter tumor also contained a germ-line ATP6 mutation. Thus, both germ-line and somatic mtDNA mutations contribute to prostate cancer. Many tumors have been found to produce increased reactive oxygen species (ROS), and mtDNA mutations that inhibit oxidative phosphorylation can increase ROS production and thus contribute to tumorigenicity. To determine whether mutant tumors had increased ROS and tumor growth rates, we introduced the pathogenic mtDNA ATP6 T8993G mutation into the PC3 prostate cancer cell line through cybrid transfer and tested for tumor growth in nude mice. The resulting mutant (T8993G) cybrids were found to generate tumors that were 7 times larger than the wild-type (T8993T) cybrids, whereas the wild-type cybrids barely grew in the mice. The mutant tumors also generated significantly more ROS. Therefore, mtDNA mutations do play an important role in the etiology of prostate cancer. cybrid | oxidative phosphorylation | inherited predisposition

Published

2005

43. A detailed picture of the origin of the Australian dingo, obtained from the study of mitochondrial DNA

Author

Savolainen, Peter, Leitner, Thomas, Wilton, Alan N., Matisoo-Smith, Elizabeth, and Lundeberg, Joakim

Subjects

Mitochondrial DNA -- Research, Science and technology

Abstract

To determine the origin and time of arrival to Australia of the dingo, 582 bp of the mtDNA control region were analyzed in 211 Australian dingoes sampled in all states of Australia, 676 dogs from all continents, and 38 Eurasian wolves, and 263 bp were analyzed in 19 pre-European archaeological dog samples from Polynesia. We found that all mtDNA sequences among dingoes were either identical to of differing by a single substitution from a single mtDNA type, A29. This mtDNA type, which was present in >50% of the dingoes, was found also among domestic dogs, but only in dogs from East Asia and Arctic America, whereas 18 of the 19 other types were unique to dingoes. The mean genetic distance to A29 among the dingo mtDNA sequences indicates an origin [approximately equal to] 5,000 years ago. From these results a detailed scenario of the origin and history of the dingo can be derived: dingoes have an origin from domesticated dogs coming from East Asia, possibly in connection with the Austronesian expansion into Island Southeast Asia. They were introduced from a small population of dogs, possibly at a single occasion, and have since lived isolated from other dog populations.

Published

2004

44. Alzheimer's brains harbor somatic mtDNA control-region mutations that suppress mitochondrial transcription and replication

Author

Coskun, Pinar E., Beal, M. Flint, and Wallace, Douglas C.

Subjects

Mitochondrial DNA -- Research, Alzheimer's disease -- Research, Science and technology

Abstract

Defects in mitochondrial oxidative phosphorylation have frequently been associated with Alzheimer's disease (AD), and both inherited and somatic mtDNA mutations have been reported in certain AD cases. To determine whether mtDNA mutations contribute more generally to the etiology of AD, we have investigated the sequence of the mtDNA control region (CR) from AD brains for possible disease-causing mutations. Sixty-five percent of the AD brains harbored the T414G mutation, whereas this mutation was absent from all controls. Moreover, cloning and sequencing of the mtDNA CR from patient and control brains revealed that all AD brains had an average 63% increase in heteroplasmic mtDNA CR mutations and that AD brains from patients 80 years and older had a 130% increase in heteroplasmic CR mutations. In addition, these mutations preferentially altered known mtDNA regulatory elements. Certain AD brains harbored the disease-specific CR mutations T414C and T477C, and several AD brains between 74 and 83 years of age harbored the CR mutations T477C, T146C, and T195C, at levels up to 70-80% heteroplasmy. AD patient brains also had an average 50% reduction in the mtDNA L-strand ND6 transcript and in the mtDNA/nuclear DNA ratio. Because reduced ND6 mRNA and mtDNA copy numbers would reduce brain oxidative phosphorylation, these CR mutations could account for some of the mitochondrial defects observed in AD.

Published

2004

45. The mitochondrial genome of Paraspadella gotoi is highly reduced and reveals that chaetognaths are a sister group to protostomes

Author

Helfenbein, Kevin G., Fourcade, H. Matthew, Vanjani, Rohit G., and Boore, Jeffrey L.

Subjects

Mitochondrial DNA -- Research, Science and technology

Abstract

We report the complete mtDNA sequence from a member of the phylum Chaetognatha (arrow worms). The Paraspadella gotoi mtDNA is highly unusual, missing 23 of the genes commonly found in animal mtDNAs, including atp6, which has otherwise been found universally to be present. Its 14 genes are unusually arranged into two groups, one on each strand. One group is punctuated by numerous noncoding intergenic nucleotides although the other group is tightly packed, having no noncoding nucleotides, leading to speculation that there are two transcription units with differing modes of expression. The phylogenetic position of the Chaetognatha within the Metazoa has long been uncertain, with conflicting or equivocal results from various morphological analyses and rRNA sequence comparisons. Comparisons here of amino acid sequences from mitochondrially encoded proteins give a single most parsimonious tree that supports a position of Chaetognatha as sister to the protostomes studied here. From this analysis, one can more clearly interpret the patterns of evolution of various developmental features, especially regarding the embryological fate of the blastopore. metazoan phylogeny I mitochondria I evolution I gene loss I genome evolution

Published

2004

46. Origins and dispersals of Pacific peoples: evidence from mtDNA phylogenies of the Pacific rat

Author

Matisoo-Smith, E. and Robins, J.H.

Subjects

Mitochondrial DNA -- Research, Science and technology

Abstract

The human settlement of the Pacific in general, and the origin of the Polynesians in particular, have been topics of debate for over two centuries. Polynesian origins are most immediately traced to people who arrived in the Fiji, Tonga, and Samoa region [approximately equal to] 3,000 B.P. and are clearly associated with the Lapita Cultural Complex. Although this scenario of the immediate origins of the Polynesians is generally accepted, the debate on the ultimate origin of the Polynesians and the Lapita cultural complex continues. Our previous research has shown that analyses of mtDNA variation in the Pacific rat (Rattus exulans), often transported as a food item in the colonizing canoes, are valuable for tracing prehistoric human migration within Polynesia. Here we present mtDNA phylogenies based on [approximately equal to] 240 base pairs of the D-loop from both archaeological and modern samples collected from Island Southeast Asia and the Pacific. We identify three major haplogroups, two of which occur in the Pacific. Comparing our results with Lapita models of Oceanic settlement, we are able to reject two of-ten cited but simplistic models, finding support instead for multifaceted models incorporating a more complex view of the Lapita intrusion. This study is unique and valuable in that R. exulans is the only organism associated with the Lapita dispersal for which there are sufficient ancient and extant populations available for genetic analysis. By tracking population changes through time, we can understand more fully the settlement process and population interactions in both Near and Remote Oceania. Oceania | Lapita | prehistory | ancient DNA | phylogeography

Published

2004

47. Distinguishing human ethnic groups by means of sequences from Helicobacter pylori: lessons from Ladakh

Author

Wirth, Thierry, Wang, Xiaoyan, Linz, Bodo, Novick, Richard P., Lum, J. Koji, Blaser, Martin, Morelli, Giovanna, Falush, Daniel, and Achtman, Mark

Subjects

Mitochondrial DNA -- Research, Science and technology

Abstract

The history of mankind remains one of the most challenging fields of study. However, the emergence of anatomically modern humans has been so recent that only a few genetically informative polymorphisms have accumulated. Here, we show that DNA sequences from Helicobacter pylori, a bacterium that colonizes the stomachs of most humans and is usually transmitted within families, can distinguish between closely related human populations and are superior in this respect to classical human genetic markers. H. pylori from Buddhists and Muslims, the two major ethnic communities in Ladakh (India), differ in their population-genetic structure. Moreover, the prokaryotic diversity is consistent with the Buddhists having arisen from an introgression of Tibetan speakers into an ancient Ladakhi population. H. pylori from Muslims contain a much stronger ancestral Ladakhi component, except for several isolates with an Indo-European signature, probably reflecting genetic flux from the Near East. These signatures in H. pylori sequences are congruent with the recent history of population movements in Ladakh, whereas similar signatures in human microsatellites or mtDNA were only marginally significant. H. pylori sequence analysis has the potential to become an important tool for unraveling short-term genetic changes in human populations. mtDNA | microsatellites | admixture | human migrations | population genetics

Published

2004

48. Mitochondrial DNA ligase in Crithidia fasciculata

Author

Murari Sinha, Krishna, Hines, Jane C., Downey, Nicholas, and Ray, Dan S.

Subjects

Mitochondrial DNA -- Research, Science and technology

Abstract

Kinetoplast DNA (kDNA), the form of mitochondrial DNA in trypanosomatids, consists of thousands of interlocked circular DNAs organized into a compact disk structure. A type II DNA topoisomerase, a DNA polymerase [beta], and a structure-specific endonuclease have been localized to antipodal sites flanking the kDNA disk along with nascent DNA minicircles. We have cloned a gene (LIG k) encoding a mitochondrial DNA ligase in the trypanosomatid Crithidia fasciculata, and we show that an epitope-tagged form of the ligase colocalizes with the other replication proteins at the antipodal sites and also at the two faces of the kDNA disk. DNA LIG k becomes adenylated in reactions with ATP, and the adenylate moiety is removed by incubation with pyrophosphate of nicked DNA. The ligase interacts physically with the [beta] polymerase and is proposed to be involved in the repair of gaps in the newly synthesized minicircles. In yeast and mammals, a single gene encodes both nuclear and mitochondrial forms of DNA ligase. The LIG K protein sequence has low similarity to mitochondrial DNA ligases in other eukaryotes and is distinct from the C. fasciculata nuclear DNA ligase (LIG I).

Published

2004

49. Production of homoplasmic xenomitochondrial mice

Author

McKenzie, Matthew, Trounce, Ian A., Cassar, Carolyn A., and Pinkert, Carl A.

Subjects

Mitochondrial DNA -- Research, Science and technology

Abstract

The unique features of mtDNA, together with the lack of a wide range of mouse cell mtDNA mutants, have hampered the creation of mtDNA mutant mice. To overcome these barriers mitochondrial defects were created by introducing mitochondria from different mouse species into Mus musculus domesticus (Mm) mtDNA-less ([[rho].sup.0]) L cells. Introduction of the closely related Mus spretus (Ms) or the more divergent Mus dunni (Md) mitochondria resulted in xenocybrids exhibiting grossly normal respiratory function, but mild metabolic deficiencies, with 2- and 2.5-fold increases in lactate production compared with controls. The transfer of this model from in vitro to in vivo studies was achieved by introducing Ms and Md mitochondria into rhodamine-6G-treated Mm mouse embryonic stem (ES) cells. The resultant xenocybrid ES cells remained pluripotent, and live-born chimerae were produced from both Ms and Md xenocybrid ES cells. Founder chimeric females ([G.sub.0]) were mated with successful germ-line transmission of Ms or Md mtDNA to homoplasmic [G.sub.1] offspring. These xenocybrid models represent the first viable transmitochondrial mice with homoplasmic replacement of endogenous mtDNA and confirm the feasibility of producing mitochondrial defects in mice by using a xenomitochondrial approach.

Published

2004

50. Mitochondrial DNA sequences reveal the photosynthetic relatives of Rafflesia, the world's largest flower

Author

Barkman, Todd J., Lim, Seok-Hong, Salleh, Kamarudin Mat, and Nais, Jamili

Subjects

Mitochondrial DNA -- Research, Rafflesia, Science and technology

Abstract

All parasites are thought to have evolved from free-living ancestors. However, the ancestral conditions facilitating the shift to parasitism are unclear, particularly in plants because the phylogenetic position of many parasites is unknown. This is especially true for Rafflesia, an endophytic holoparasite that produces the largest flowers in the world and has defied confident phylogenetic placement since its discovery >180 years ago. Here we present results of a phylogenetic analysis of 95 species of seed plants designed to infer the position of Rafflesia in an evolutionary context using the mitochondrial gene matR (1,806 aligned base pairs). Overall, the estimated phylogenetic tree is highly congruent with independent analyses and provides a strongly supported placement of Rafflesia with the order Malpighiales, which includes poinsettias, violets, and passionflowers. Furthermore, the phylogenetic placement of Mitrastema, another enigmatic, holoparasitic angiosperm with the order Ericales (which includes blueberries and persimmons), was obtained with these data. Although traditionally classified together, Rafflesia and Mitrastema are only distantly related, implying that their endoparasitic habits result from convergent evolution. Our results indicate that the previous significant difficulties associated with phylogenetic placement of holoparasitic plants may be overcome by using mitochondrial DNA so that a broader understanding of the origins and evolution of parasitism may emerge.

Published

2004