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1.
Georg Michaelis Eric Petrochilo Piotr P. Slonimski 《Molecular & general genetics : MGG》1973,123(1):51-65
Summary Cytoplasmic petite mutants of Saccharomyces cerevisiae carrying the gene conferring the resistance to chloramphenicol on one hand and the gene conferring the resistance to erythromycin on the other, have been crossed with each other. The two types of petites differed in the buoyant densities of their mitochondrial DNA. A novel type of evidence has been adduced, that the two genes are indeed located on mitochondrial DNA. Diploid petite recombinants were found, carrying both genes and containing not a mixture of the two parental DNAs but a new species of mitochondrial DNA of intermediate buoyant density. Recombination of mitochondrial genes involves therefore breakage and reunion of DNA molecules. New suppressiveness, different from the two parental ones, can result from the recombination of mitochondrial DNA. Recombination between petite mutants implies that the mitochondrial recombination enzymes have to be synthesized on cytosol ribosomes. 相似文献
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B. Dujon M. Bolotin-Fukuhara D. Coen J. Deutsch P. Netter P. P. Slonimski L. Weill 《Molecular & general genetics : MGG》1976,143(2):131-165
1. | A series of CS revertants has been selected from various strains (both + and –) carrying a CR mitochondrial mutation at the RIB1 locus. The properties of mitochondrial recombination exhibited by these CS revertants in various crosses, have been examined systematically. The allele of the CS revertants has been defined in crosses with + and – tester strains using two criteria: the polarity of recombination and a new criterium called relative output coefficient. We found that mutations of appear frequently associated with the mutations at the RIB1 locus selected from – strains but not with those selected from + strains. A new allelic form of (n) which had not been found amongst wild type yeast strains is characterised. Similarly n mutation was found frequently associated with CR mutants at the RIB1 locus selected from – CS strains but not with those selected from + CS strains. The n mutants, and the + and – strains, explain the groups of polarity previously observed by Coen et al. (1970). |
2. | Main features of mitochondrial crosses with n strains (+×n, –×n and n×n) are analysed. Recombination is possible between the different mitochondrial genetic markers. No high polarity of recombination is observed and the frequency of recombinants are similar to those found in homosexual crosses (+×+ and –×–). A striking property, observed for the first time, exists in crosses between + +×n CS strains and some – CREO mutants: the – CREO are unable to integrate by recombination their CR allele into the + mit-DNA of – CS strains while being capable of integrating it into + CS or – CS genomes. |
3. | It is proposed that the locus is the site of initiation of non reciprocal recombination events, the +/– pairing specifically initiates the non-reciprocal act while +/n or –/n pairings do not. |
4. | The molecular nature of the n mutation and its bearing on the structure of the locus are discussed. It is suggested that n mutations correspond to macrolesions (probably deletions) of a segment of the mit-DNA covering the and RIB1 loci. If n is a partial deletion of the – sequence the + could be an additionnal deletion of the n sequence. |
5. | The occurrence of spontaneous CR and ER mitochondrial mutations has been analysed by the Luria and Delbrück fluctuation test in – and n isonuclear strains. Results of these tests indicate that an intracellular selection of resistant copies preexisting the action of the antibiotic occurs. |
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Mitochondrial genetics and disease 总被引:19,自引:0,他引:19
Schon EA 《Trends in biochemical sciences》2000,25(11):555-560
Mitochondrial respiratory chain diseases are a highly diverse group of disorders whose main unifying characteristic is the impairment of mitochondrial function. As befits an organelle containing gene products encoded by both mitochondrial DNA (mtDNA) and nuclear DNA (nDNA), these diseases can be caused by inherited errors in either genome, but a surprising number are sporadic, and a few are even caused by environmental factors. 相似文献
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Lawrence I. Grossman Eric A. Shoubridge 《BioEssays : news and reviews in molecular, cellular and developmental biology》1996,18(12):983-991
Mitochondria contain a molecular genetic system to express the 13 protein components of the electron transport system encoded in the mitochondrial genome (mtDNA). Defects in the function of this system result in some diaseases, many of which are multisystem disorders, prominently involving highly aerobic, postmitotic tissues. These defects can be caused by large-scale rearrangements of mtDNA, by point mutations, or by nuclear gene mutations resulting in abnormalities in mtDNA. Although any of these mutations would be expected to produce a similar clinical phenotype by compromising oxidative phosphorylation, the surprising and puzzling result is that different clinical phenotypes are generally associated with specific mtDNA mutations. Moreover, the same mutation can produce a distinct clinical phenotype in different individuals or pedigrees. MtDNA rearrangements are also found in aged individuals, but at a subclinical level, suggesting that normal and pathological processes can differ by the effect of genetic or environmental factors on the error rate of mtDNA replication. 相似文献
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Mitochondrial DNA plays a crucial role in cellular homeostasis; however, the molecular mechanisms underlying mitochondrial DNA inheritance and propagation are only beginning to be understood. To ensure the distribution and propagation of the mitochondrial genome, mitochondrial DNA is packaged into macromolecular assemblies called nucleoids, composed of one or more copies of mitochondrial DNA and associated proteins. We review current research on the mitochondrial nucleoid, including nucleoid-associated proteins, nucleoid dynamics within the cell, potential mechanisms to ensure proper distribution of nucleoids, and the impact of nucleoid organization on mitochondrial dysfunction. The nucleoid is the molecular organizing unit of mitochondrial genetics, and is the site of interactions that ultimately determine the bioenergetic state of the cell as a whole. Current and future research will provide essential insights into the molecular and cellular interactions that cause bioenergetic crisis, and yield clues for therapeutic rescue of mitochondrial dysfunction. 相似文献
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Mitochondrial DNA and two perspectives on evolutionary genetics 总被引:17,自引:0,他引:17
ALLAN C. WILSON REBECCA L. CANN STEVEN M. CARR MATTHEW GEORGE ULF B. GYLLENSTEN KATHLEEN M. HELM-BYCHOWSKI RUSSELL G. HIGUCHI STEPHEN R. PALUMBI ELLEN M. PRAGER RICHARD D. SAGE MARK STONEKING 《Biological journal of the Linnean Society. Linnean Society of London》1985,26(4):375-400
This essay reviews comparative studies of animal mitochondrial DNA (mtDNA), with emphasis on findings made and ideas developed at Berkeley. It argues that such studies are bringing together two previous paths of progress in evolutionary biology. One path is that of those who worked far above the species level and were concerned with genealogical trees, time scales and the accumulation of new mutations on surviving molecular lineages. The other path is that of those who worked at and below the species level and were concerned mainly with population structure, migration and the frequencies of alleles that existed in an ancestral population. This fusion of paths is made possible by the high rate at which mutations accumulate on mtDNA lineages and by this molecule's uniparental and apparently haploid mode of inheritance. These properties make mtDNA a superb tool for building trees and time scales relating molecular lineages at and below the species level. In addition, owing to its mode of inheritance, mtDNA is more sensitive to bottlenecks in population size and to population subdivision than are nuclear genes. Joint comparative studies of both mtDNA and nuclear DNA variability give us valuable insights into how effective population size has varied through time. Such studies also give insight into the conditions under which mtDNA from one species can colonize another species. 相似文献
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《生物化学与生物物理学报:疾病的分子基础》2020,1866(5):165648
The nuclear genome drives differences in immune cell populations and differentiation potentials, in part regulated by changes in metabolism. Despite this connection, the role of mitochondrial DNA (mtDNA) polymorphisms (SNP) in this process has not been examined. Using mitochondrial nuclear exchange (MNX) mice, we and others have shown that mtDNA strongly influences varying aspects of cell biology and disease. Based upon an established connection between mitochondria and immune cell polarization, we hypothesized that mtDNA SNP alter immune cell development, trafficking, and/or differentiation. Innate and adaptive immune cell populations were isolated and characterizated from the peritoneum and spleen. While most differences between mouse strains are regulated by nuclear DNA (nDNA), there are selective changes that are mediated by mtDNA differences (e.g., macrophage (CD11c) differentiation), These findings highlight how nuclear-mitochondrial crosstalk may alter pathology and physiology via regulation of specific components of the immune system. 相似文献
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Mitochondrial DNA and the evolutionary genetics of higher animals 总被引:13,自引:0,他引:13
J C Avise 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》1986,312(1154):325-342
Mitochondrial DNA (mtDNA) in higher animals is rapidly becoming a well characterized genetic system at the molecular level. In this paper, I shift the focus to consider questions in organismal evolution that can be addressed by mtDNA assay. For the first time, it is possible to estimate empirically matriarchal phylogeny; to determine directionality in crosses producing hybrids; and to study the population genetic consequences of varying female demographies and life histories. The data obtainable from mtDNA may be especially well suited for studies of population genetic structure, dispersal, and historical zoogeography. The female-mediated, clonal transmission of mtDNA is also stimulating new ways of thinking about times to common ancestry of asexual lineages within otherwise sexually reproducing populations; about the possible relevance of mtDNA-nuclear DNA interactions to reproductive isolation; and about the very meaning of the phylogenetic status of related species with respect to particular kinds of genetic characters. These and other topics are reviewed. 相似文献
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Mitochondrial DNA: a tool for populational genetics studies. 总被引:5,自引:0,他引:5
Mitochondria are cellular organelles that have the function of the oxidative phosphorilation and the formation of ATP. In humans, the mtDNA is a double-stranded, circular, covalent closed molecule of 16.5 kb. The mtDNA is inherited as a haploid from the mother and heteroplasmy has been found rarely. From a populational perspective, it could be considered as a system of small, sexually isolated demes, or clonal lineages, with an evolutionary rate 5 to 10 times faster than the nuclear genome. All these characteristics make this molecule ideal for evolutionary studies. We present two applications of this molecule in genetical studies. One of these is referred to the Balearic Islands populations, Majorca, Minorca, Ibiza, and Chuetas. The other example is the populational dynamics of the different mitochondrial haplotypes in Drosophila subobscura. We also discuss the importance of nuclear markers to complete these studies as well as the study of the Y chromosome to compensate the bias produced by the study of only the mtDNA. 相似文献
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Obesity is a leading risk factor for a variety of metabolic diseases including cardiovascular disease, diabetes, and cancer. Although in its simplest terms, obesity may be thought of as a consequence of excessive caloric intake and sedentary lifestyle, it is also evident that individual propensity for weight gain can vary. The etiology of individual susceptibility to obesity seems to be complex—involving a combination of environmental–genetic interactions. Herein, we suggest that the mitochondrion plays a major role in influencing individual susceptibility to this disease via mitochondrial–nuclear interaction processes and that environmentally influenced selection events for mitochondrial function that conveyed increased reproductive and survival success during the global establishment of human populations during prehistoric times can influence individual susceptibility to weight gain and obesity. 相似文献
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N Fischel-Ghodsian 《American journal of human genetics》1998,62(1):15-19
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鱼类是脊椎动物亚门中种属数量最多的类群,分布广泛,起源复杂,拥有丰富的遗传多样性.多种自然和人为因素对鱼类遗传资源存在不同程度的作用,对鱼类生存和进化有重要影响.采用分子手段探讨鱼类遗传资源现状,可为遗传育种、鱼类进化研究和遗传资源保护等提供一定科学依据.以鱼类线粒体DNA(mtDNA)为代表的分子标记技术已被用于研究鱼类群体遗传结构及其与影响因素间的关系.本文综述了鱼类mtDNA的结构特征及其在鱼类分子群体遗传研究中的应用,对了解和运用mtDNA等分子标记研究鱼类群体遗传具有一定参考价值. 相似文献
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Summary Mitochondrial malic enzyme MEM (E.C. 1.1.1.40) is present in human leukocytes; the polymorphism of MEM thus can be easily demonstrated using routine starch gel electrophoresis. Data on formal genetics are given. The gene frequency of ME
1
M
was estimated to be 0.67±0.02. 相似文献
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Mitochondrial retrograde signaling at the crossroads of tumor bioenergetics,genetics and epigenetics
Mitochondria play a central role not only in energy production but also in the integration of metabolic pathways as well as signals for apoptosis and autophagy. It is becoming increasingly apparent that mitochondria in mammalian cells play critical roles in the initiation and propagation of various signaling cascades. In particular, mitochondrial metabolic and respiratory states and status on mitochondrial genetic instability are communicated to the nucleus as an adaptive response through retrograde signaling. Each mammalian cell contains multiple copies of the mitochondrial genome (mtDNA). A reduction in mtDNA copy number has been reported in various human pathological conditions such as diabetes, obesity, neurodegenerative disorders, aging and cancer. Reduction in mtDNA copy number disrupts mitochondrial membrane potential (Δψm) resulting in dysfunctional mitochondria. Dysfunctional mitochondria trigger retrograde signaling and communicate their changing metabolic and functional state to the nucleus as an adaptive response resulting in an altered nuclear gene expression profile and altered cell physiology and morphology. In this review, we provide an overview of the various modes of mitochondrial retrograde signaling focusing particularly on the Ca2 +/Calcineurin mediated retrograde signaling. We discuss the contribution of the key factors of the pathway such as Calcineurin, IGF1 receptor, Akt kinase and HnRNPA2 in the propagation of signaling and their role in modulating genetic and epigenetic changes favoring cellular reprogramming towards tumorigenesis. 相似文献
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Huayun Guo Hao Yang Yitao Tao Dan Tang Qiong Wu Zhengfei Wang Boping Tang 《Genes & genomics.》2018,40(11):1169-1180
Cave shrimps from the genera Typhlatya, Stygiocaris and Typhlopatsa (TST complex) comprises twenty cave-adapted taxa, which mainly occur in the anchialine environment. Anchialine habitats may undergo drastic environmental fluctuations, including spatial and temporal changes in salinity, temperature, and dissolved oxygen content. Previous studies of crustaceans from anchialine caves suggest that they have possessed morphological, behavioral, and physiological adaptations to cope with the extreme conditions, similar to other cave-dwelling crustaceans. However, the genetic basis has not been thoroughly explored in crustaceans from anchialine habitats, which can experience hypoxic regimes. To test whether the TST shrimp-complex hypoxia adaptations matched adaptive evolution of mitochondrial OXPHOS genes. The 13 OXPHOS genes from mitochondrial genomes of 98 shrimps and 1 outgroup were examined. For each of these genes was investigated and compared to orthologous sequences using both gene (i.e. branch-site and Datamonkey) and protein (i.e. TreeSAAP) level approaches. Positive selection was detected in 11 of the 13 candidate genes, and the radical amino acid changes sites scattered throughout the entire TST complex phylogeny. Additionally, a series of parallel/convergent amino acid substitutions were identified in mitochondrial OXPHOS genes of TST complex shrimps, which reflect functional convergence or similar genetic mechanisms of cave adaptation. The extensive occurrence of positive selection is suggestive of their essential role in adaptation to hypoxic anchialine environment, and further implying that TST complex shrimps might have acquired a finely capacity for energy metabolism. These results provided some new insights into the genetic basis of anchialine hypoxia adaptation. 相似文献
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Two maternally inherited sex ratio distorters (SRD) impose female-biased sex ratios on the wood louse Armadillidium vulgare by feminizing putative males. These SRD are (i) an intracytoplasmic bacterium of the genus Wolbachia, and (ii) another non-Mendelian element of unknown nature: the f element. Mitochondrial DNA variation was investigated in A. vulgare field populations to trace the evolution of host-SRD relationships and to investigate the effect of SRD on host cytoplasmic polymorphism. The Wolbachia endosymbionts showed no polymorphism in their ITS2 sequence and were associated with two closely related mitochondrial types. This situation probably reflects a single infection event followed by a slight differentiation of mitochondria. There was no association between the f element and a given mitochondrial type, which may confirm the fact that this element can be partially paternally transmitted. The spreading of a maternally inherited SRD in a population should reduce the mitochondrial diversity by a hitchhiking process. In A. vulgare, however, a within-population mtDNA polymorphism was often found, because of the deficient spread of Wolbachia and the partial paternal inheritance of the f element. The analysis of molecular variance indicated that A. vulgare populations are genetically structured, but without isolation by distance. 相似文献