DNA polymorphism in the Mongolian population. Restriction fragment length polymorphism analysis of DNA at seven loci of the nuclear genome]

Seven DNA markers from five genes and one chromosomal region were analysed in Mongolian population using the polymerase chain reaction. The frequencies of alleles of the polymorphisms detected with HindIII in the HBG-2, AvaII in the HBB, MspI and XbaI in the Apo-B, PstI in the D7S8, HincII in the LDLR and allele frequency of the minisatellite fragment in the AT-3 have been determined. The results of the RELP for Apo-B(MspI), LDLR, D7S8 and AT-3 are obtained for the first time among Mongoloids. DNA markers studied demonstrated high level of polymorphisms in the population of Mongolia, except for XbaI and MspI restriction sites at the Apo-B locus. The data obtained for Mongolian population and the literature data were compared.     

Mitochondrial DNA polymorphism in mitochondrial myopathy

Summary In order to test the hypothesis that mitochondrial myopathy may be caused by mutation of the mitochondrial (mt) genome, restriction fragment length polymorphism in leucocyte mt DNA has been studied in 38 patients with mitochondrial myopathy, 44 of their unaffected matrilineal relatives, and 35 normal control subjects. Previously unreported mt DNA polymorphisms were identified in both patients and controls. No differences in restriction fragment patterns were observed between affected and unaffected individuals in the same maternal line, and there was no evidence of major deletion of mt DNA in patients. This study provides no positive evidence of mitochondrial inheritance in mitochondrial myopathy, but this has not been excluded.     

Genetic diversity of Cheju horses (Equus caballus) determined by using mitochondrial DNA D-loop polymorphism

We used sequence polymorphism of the mitochondrial DNA D-loop (968 bp excluding the tandem repeat region) to determine genetic diversity of horses inhabiting Cheju (a southern island of Korea). Seventeen haplotypes with frequencies from 1.5 to 21.5% were found among 65 Cheju horse samples. Genetic diversity (h) of the 17 haplotypes was calculated to be 0.91, indicating that the extant Cheju horse population consists of diverse genetic groups in their maternal lineage. Phylogenetic analysis showed that 17 types of Cheju (D-loop sequences determined), 5 Mongolian, 6 Arabian, 3 Belgian, 2 Tsushima, 2 Yunnan, 1 Przewalskii, and 3 Thoroughbred horses (published sequences for the latter seven breeds) showed that Cheju horses were distributed into many different clusters in the tree. Four Mongolian horses clustered with separate Cheju horse groups, showing that some Cheju horses are clearly of Mongolian origin. The analysis of partial sequences (284 bp) of the D-loop of 109 horses showed that Thoroughbred, Mongolian, Lipizzan, and Arabian breeds are as diverse as Cheju horses. Our data together with others' suggest that most horse breeds tested with reasonably sufficient numbers of samples are diverse in their maternal lineages and also are not uniquely different from each other.     

Genetic hitchhiking,mitonuclear coadaptation,and the origins of mt DNA barcode gaps

DNA barcoding based on mitochondrial (mt) nucleotide sequences is an enigma. Neutral models of mt evolution predict DNA barcoding cannot work for recently diverged taxa, and yet, mt DNA barcoding accurately delimits species for many bilaterian animals. Meanwhile, mt DNA barcoding often fails for plants and fungi. I propose that because mt gene products must cofunction with nuclear gene products, the evolution of mt genomes is best understood with full consideration of the two environments that impose selective pressure on mt genes: the external environment and the internal genomic environment. Moreover, it is critical to fully consider the potential for adaptive evolution of not just protein products of mt genes but also of mt transfer RNAs and mt ribosomal RNAs. The tight linkage of genes on mt genomes that do not engage in recombination could facilitate selective sweeps whenever there is positive selection on any element in the mt genome, leading to the purging of mt genetic diversity within a population and to the rapid fixation of novel mt DNA sequences. Accordingly, the most important factor determining whether or not mt DNA sequences diagnose species boundaries may be the extent to which the mt chromosomes engage in recombination.     

DNA polymorphism in population genetics

In the review, the literature evidence on DNA polymorphism obtained in the last 10-15 years using various molecular-genetic methods is summarized. All main types of DNA variation are considered but attention is focused on those extensively used in population genetics. The areas of using DNA markers are outlined and the limitations of their potential in analyzing genetic processes in populations are discussed. Particular emphasis is placed on the relationship between the earlier developed biochemical genetics based on protein polymorphism analysis and modern molecular population genetics based on DNA polymorphism. The possible role of selection in maintaining DNA variation is considered.     

Organelle DNA polymorphism in apple cultivars and rootstocks

Summary Restriction fragment length polymorphisms (RFLPs) have been used to detect chloroplast (cp) and mitochondrial (mt) DNA variation among 18 apple cultivars and three rootstocks. The distribution of RFLP patterns allowed the assignment of these genotypes into three groups of cytoplasmic relatedness. Our results also demonstrate maternal inheritance of cp- and mtDNAs in apple. Thus, the organelle DNA assay provides a convenient and reliable method to assess cytoplasmic diversity within the apple germ-plasm collection and to trace the maternal lineages involved in the evolution of apple.     

Acquisition of mitochondrial DNA by a transformation vector for Ustilago violacea

Plasmid pUCH1 is a 5.2-kb pUC18 construct bearing the hygB gene fused to a promoter from Cochliobolus heterostrophus. Haploid cells of the basidiomycete, Ustilago violacea, were transformed with this plasmid. In addition to multiple integrations of plasmid sequences into U. violacea nuclear DNA, vector sequences independent of the nuclear genome were indicated by Southern-blot analysis using all or part of pUCH1 as a probe. Hybridization also revealed intact pUCH1 and several larger derivatives in satellite bands from CsCl-bis-benzamide gradients of whole cellular DNA and in DNA from purified mitochondria [mitochondrial (mt) DNA preparations] of transformed U. violacea; circular DNAs consistent with the sizes of DNAs in these satellite bands were seen in electron microscope analyses of the same mt DNA preparations as well. The plasmids could be detected in mt DNA preparations even after 30 generations of transformant growth under selective pressure. Transformation of Escherichia coli by these mt DNA preparations produced bacterial transformants bearing intact pUCH1, as well as several pUCH1 derivatives, including pUCH2, an approx. 8.0-kb plasmid. A 2.5-kb EcoRI fragment from pUCH2 showed only weak hybridization with pUCH1. This unique fragment did hybridize strongly with mt DNA from untransformed U. violacea. This derivative thus appears to have acquired mt sequences from U. violacea.     

Consensus multiplex PCR–restriction fragment length polymorphism (RFLP) for rapid detection of plant mitochondrial DNA polymorphism

A fast, simple, and efficient approach, termed consensus multiplex PCR–RFLP, was developed and employed to detect mitochondrial (mt)DNA variation in three orchid species, Spiranthes hongkongensis, S. sinensis , and S. spiralis . Using multiplex PCR, three pairs of consensus mitchondrial primers were added simultaneously into each reaction tube to amplify three nonoverlapping introns located in the NADH dehydrogenase genes. Fragment length differences in the multiplex PCR amplicons were directly detectable between S. spiralis and the other two species. Further restriction analysis of the multiplex PCR amplicons revealed sufficient mtDNA polymorphism, suitable for phylogenetic studies at the interspecific level. This approach is well suited for large-scale population surveys of mitochondrial genome diversity in plants. Additionally, the maternal mode of inheritance of organelle genomes renders this approach valuable for rapid identification of the origin and specific parentage of hybrid or allopolyploid species.     

Population origins in Mongolia: genetic structure analysis of ancient and modern DNA

In the present study, nuclear (autosomal and Y-chromosome short tandem repeats) and mitochondrial (hypervariable region I) ancient DNA data previously obtained from a 2,300-year-old Xiongnu population of the Egyin Gol Valley (south of Lake Baikal in northern Mongolia) (Keyser-Tracqui et al. 2003 Am. J. Hum. Genet. 73:247-260) were compared with data from two contemporary Mongolian populations: one from the same location (Egyin Gol Valley plus a perimeter of less than 100 km around the valley), and one from the whole of Mongolia. The principal objective of this comparative analysis was to assess the likelihood that genetic continuity exists between ancient and present-day Mongolian populations. Since the ancient Xiongnu sample might have been composed of some of the ancestors of the present-day Yakuts, data from a present-day Yakut population, as well as published data from Turkish populations, were also included in the comparative analysis. The main result of our study was the genetic similarity observed among Mongolian samples from different periods and geographic areas. This result supports the hypothesis that the succession over time of different Turkic and Mongolian tribes in the current territory of Mongolia resulted in cultural rather than genetic exchanges. Furthermore, it appears that the Yakuts probably did not find their origin among the Xiongnu tribes, as we previously hypothesized.     

Evolutionary divergence of mitochondrial DNA from Paramecium aurelia

Summary Mitochondrial (mt) DNA from four sibling species within the Paramecium aurelia complex, including stocks of different geographic origin and mutants, were analyzed using four 6-bp recognition site and one 4-bp recognition site endonucleases and the sequence divergence was estimated using Upholt's (1977) statistical procedure. All four species were readily distinguishable regardless of the restriction endonuclease employed. With intraspecies comparisons, no differences were observed which could be accounted for on the basis of geographic origin. Except for species 4, each stock (and mutant) gave a species-specific fragment pattern. For species 4, while the patterns were distinct from the other species, two species-specific type of patterns were found, designated A and B. The sequence divergence between these was estimated to be between 1 and 2 percent. With interspecies comparisons, the sequence divergence ranged from 3.9 to 10.3% with the greatest divergence being between species 1 and 4, and the least between species 1 and 5. The similarity between species 1 and 5 is in accord with other criteria for interspecies comparisons. The degree of sequence divergence measured here in Paramecium mt DNA is well within the range reported for rodents and primates. All four species mt DNA were cleaved to many DNA fragments by DPN II, an enzyme which recognizes non-methylated sites, and not by DPNI, the methyl-site specific counterpart of DPN II, suggesting that mt DNA from Paramecium aurelia is not appreciably methylated, if at all.     

Mitochondrial DNA molecules and virtual number of mitochondria per cell in mammalian cells

A new biochemical method for estimating the virtual number of mitochondria (mt) per cell was developed and used together with a plasmid probe to measure mt DNA/mitochondrion and mt DNA/cell. These methods were used in five cell types from four mammalian species. Mt DNA/mitochondrion was essentially constant in all cell types (mean 2.6 +/- 0.30 SE mitochondrial DNA molecules/mt). Mt DNA molecules/cell encompassed an eight-fold range between various cell types (low 220 +/- 6.2; high 1,720 +/- 162 mt DNA molecules/cell). Virtual mt number/cell ranged from 83 +/- 17 to 677 +/- 80 (SE) mt/cell in various cell types. All five mammalian virtual mitochondria contained the same genomic mass. The number of virtual mitochondria per cell and amount of mt DNA per cell appear to be closely regulated within a given cell type but differ widely from cell type to cell type.     

Genetic differentiation of the Mongolian population. Comparative analysis of the geographic distribution of biochemical markers of genes and restriction fragment length polymorphism of nuclear DNA in the Mongolian population]

The geographical distribution of the gene frequencies from loci: Hp, Tf, Gc, Pi, AcP1, GLO1, EsD, 6-PGD, PGM1 and RFLP's of the nuclear DNA of the loci HBG-2 (HindIII), HBB (AvaII), ApoB (XbaI), D7S8 (PstI), LDLR (HincII) and AT-3 was analysed in the Mongolian population. These data revealed the homogeneity of 18 local groups in Mongolia and extremely low genetic differences measured by GST. There was no differences in the average GST values between protein markers and nuclear DNA markers.     

Mitochondrial DNA polymorphisms are associated with the longevity in the Guangxi Bama population of China

Human longevity is an interesting and complicated subject, with many associated variations, geographic and genetic, including some known mitochondrial variations. The population of the Bama County of Guangxi Province of China is well known for its longevity and serves as a good model for studying a potential molecular mechanism. In this study, a full sequence analysis of mitochondrial DNA (mtDNA) has been done in ten Bama centenarians using direct sequencing. Polymorphisms of the displacement loop (D-loop) region of mtDNA and several serum parameters were analyzed for a total of 313 Bama individuals with ages between 10 and 110 years. The results showed that there were seven mitochondrial variations, A73G, A263G, A2076G, A8860G, G11719A, C14766T, and A15326G, and four haplogroups, M(*), F1, D* and D(4) in 10 Bama centenarians. In the D-loop region of mtDNA, the mt146T occurred at a significantly lower frequency in those is the older age group (90-110 years) than in the middle (80-89 years) and in the younger (10-79 years) groups (P < 0.05). The mt146T also had lower systolic blood pressure and serum markers such as total cholesterol, triglyceride and low density lipoprotein than did mt146C in the older age group (P < 0.05). No significant differences were observed between the mt146C and the mt146T individuals in the middle and the younger groups (P > 0.05). The mt5178C/A polymorphisms did not show any significant differences among the three age-groups (P > 0.05), but different nationalities in the Bama County did show a significant difference in the mt5178C/A polymorphisms (P < 0.05). These results suggest that the mt146T/C polymorphisms in Guangxi Bama individuals may partly account for the Bama longevity whereas the mt5178C/A polymorphisms are strongly associated with the nationalities in the Guangxi Bama population.     

Mitochondrial DNA synthesis in mouse L cells temperature sensitive in nuclear DNA replication

Temperature-sensitive (ts) A 1S9 mouse L cells continue to synthesize double-stranded covalently closed mitochondrial (mt) DNA at a temperature (38.5 degrees C) which is nonpermissive for chromosomal DNA replication. The amount of mt DNA made appears to be quantitatively linked to nuclear DNA synthesis. Nuclear DNA replication proceeds normally for 6-8 h after the cells are shifted to 38.5 degrees C, and then declines to reach a minimum at 20-24 h. The level of mt DNA synthesis remains high during this period and decreases once the ts lesion has been established.     

Mitochondrial DNA variation in natural populations of the mushroom Agaricus bisporus

We investigated the patterns of mitochondrial DNA variation in the global population of the commercial mushroom Agaricus bisporus . Through the analysis of RFLP's among 441 isolates from nine countries in North America and Eurasia, we found a total of 140 mtDNA haplotypes. Based on population genetic analysis, there are four genetically distinct natural populations in this species, found in coastal California, desert California, France and Alberta (Canada). While 134 of the 140 mtDNA haplotypes were unique to single geographical regions, two mtDNA haplotypes, mt001 and mt002, were found in almost every population surveyed. These two mtDNA haplotypes also predominate among cultivars used throughout the world for at least the last two decades. These two mtDNA haplotypes are more similar to the cosmopolitan groups of mtDNA haplotypes than to the indigeneous clusters of mtDNA haplotypes from the two Californian regions.     

Mitochondrial DNA of the basidiomycete Polyporus ciliatus

Summary Mitochondrial (mt) DNA of the white rot fungus Polyporus ciliatus was isolated and characterized. As a result of detailed restriction enzyme analysis, a physical map was established showing that this circular DNA has a molecular weight of 88.2 kb. By heterologous cross hybridization the sites of three mt genes were recognized. By nonselective cloning of mt DNA fragments in Saccharomyces cerevisiae, an autonomously replicating sequence (ars) was identified which has potential application in the development of a prokaryotic/eukaryotic shuttle vector.     

Identification of three populations ofOphiostoma ulmi (aggressive subgroup) by mitochondrial DNA restriction-site mapping and nuclear DNA fingerprinting

Three genetically distinct populations of the Dutch elm pathogenOphistoma ulmi within the aggressive subgroup were defined by the hybridization of a human minisatellite DNA sequence (HVR 33.6) to polymorphic dispersed DNA sequences within theO. ulmi nuclear genomes. For the 10 isolates examined there was a close correlation between nuclear DNA fingerprints and mitochondrial (mt) DNA restriction patterns. A restriction-site map was constructed for the mitochondrial genomes for each of these populations. The three mt DNA maps corresponded to genome sizes of 49.1 (Type I), 49.9 (Type II), and 53.9 (Type III) kilobase pairs (kbp) of DNA. The Type I and Type II mt genomes differed from the Type III mt genome by discrete length mutations of 4.8 and 4.0 kbp, respectively. It is unknown whether these length mutations resulted from insertions into or deletions from a progenitor mitochondrial genome. There was no correlation between the mitochondrial or nuclear genotypes and the geographical source of the isolates.     

Restriction Fragment Length Polymorphism Analysis of the Mitochondrial DNA of Fusarium oxysporum f. sp. ciceris

Seven isolates of Fusarium oxysporum f. sp. ciceris, representing pathogenic races 1 , 2, 3, and 4 from India and 0, 5, and 6 from Spain, were assayed for restriction fragment length polymorphisms (RFLPs) in the mitochondrial DNA,(mt DNA). The mt DNA fraction of total fungal DNA was purified and digested with the restriction endonucleases Bam HI, Bgl II, Eco RI. Kpn I, Sac I, Sal I, Sma I, and Xho I. The mt DNA is a circular molecule of 40.5 kb. No RFLP in the mt DNA was detected among the seven races of F. o. ciceris. The identical restriction patterns of mt DNA indicates an extensive conservation in the gene composition of mt DNA without sequence variation, and suggests that mt DNA of F. o. ciceris may not be responsible for pathogenic diversity. The restriction map of mt DNA from the race 6 isolate Fo 8272 was constructed by digestion of the mt DNA with five restriction enzymes: Eco RI, Kpn I, Sac I, Sal I, and Xho I, either singly or in selected pairs.     

Analysis of ancient DNA from a prehistoric Amerindian cemetery

The Norris Farms No. 36 cemetery in central Illinois has been the subject of considerable archaeological and genetic research. Both mitochondrial DNA (mtDNA) and nuclear DNA have been examined in this 700-year-old population. DNA preservation at the site was good, with about 70% of the samples producing mtDNA results and approximately 15% yielding nuclear DNA data. All four of the major Amerindian mtDNA haplogroups were found, in addition to a fifth haplogroup. Sequences of the first hypervariable region of the mtDNA control region revealed a high level of diversity in the Norris Farms population and confirmed that the fifth haplogroup associates with Mongolian sequences and hence is probably authentic. Other than a possible reduction in the number of rare mtDNA lineages in many populations, it does not appear as if European contact significantly altered patterns of Amerindian mtDNA variation, despite the large decrease in population size that occurred. For nuclear DNA analysis, a novel method for DNA-based sex identification that uses nucleotide differences between the X and Y copies of the amelogenin gene was developed and applied successfully in approximately 20 individuals. Despite the well-known problems of poor DNA preservation and the ever-present possibility of contamination with modern DNA, genetic analysis of the Norris Farms No. 36 population demonstrates that ancient DNA can be a fruitful source of new insights into prehistoric populations.     

Intraspecific diversity of sugar beet (Beta vulgaris) mitochondrial DNA

Summary Mitochondrial (mt) DNA, isolated from different sugar beet populations, was analyzed using BamHI and EcoRI restriction enzymes. It was shown that plants possessing the new mtDNA types are revealed among O-type fertilizers quite frequently. Among cytoplasmic male sterile (cms) plants, which evolved during cultivation of O-type fertilizers, plants with altered mt genome were found.