Human mitochondrial DNA types in Finland

Summary Variation in mitochondrial DNA (mtDNA) in a sample of 110 Finns was analyzed with six restriction enzymes, AvaII, BamHI, HaeII, HinII, HpaI, and MspI, by using total blood cell DNA probed with mouse mtDNA. Two new enzyme morphs were observed, one for HaeII and one for HindII. Double-digestion experiments indicated that the BamHI morphs 2 and 3 result from base changes leading to AvaII morphs 3 and 9, respectively. Of the ten different mtDNA types observed, defined by restriction fragment patterns, seven have been previously described in Caucasoid populations. The three new Finnish mtDNA types can be derived from Caucasoid lineages by single restriction site changes. The results were used to reconstruct a phylogenetic tree for Caucasoid mtDNA types defined by the enzymes used. The frequencies of mtDNA types were used to compute genetic distances between Finns, Italians, and Israeli Jews. The frequencies of both enzyme morphs and mtDNA types show that the Finnish population is highly homogeneous.     

Genetic studies on the Tharu population of Nepal: restriction endonuclease polymorphisms of mitochondrial DNA.

The mitochondrial DNAs (mtDNAs) of 91 Tharus from Nepal were screened for restriction fragment length polymorphisms (RFLPs) using six highly informative restriction endonucleases. One pattern (morph) was found for BamHI, two for HpaI and HincII, three for HaeII, four for AvaII, and six for MspI. Two of the AvaII and four of the MspI morphs were "new" (not previously described). Virtually all of the "old" morphs found in the Tharus were previously observed in Orientals. The Oriental HaeII morph (HaeII-5) previously observed at a frequency of 5% was present in 25% of the Tharus. Of the 13 Tharu mtDNA types (defined by the six restriction endonuclease morphs) observed, five had previously been described ("old" types), all in Orientals. Three of these were unique for Orientals. All of the remaining eight "new" Tharu mtDNAs were all closely related to Oriental mtDNAs. Two of the "old" Tharu mtDNA types included the HpaI/HincII morph 1, a morph possibly indicative of the earliest human mtDNA types. From these data we have concluded that the Tharu mtDNAs are closely related to those of other Oriental populations. Further, our data support the hypothesis that human mtDNAs radiated from Asia.     

Mitochondrial DNA polymorphism in Russians from west Siberia.

The mitochondrial DNA (mtDNA) of 60 Russians from West Siberia was analyzed with the following restriction enzymes: BamHI, HindIII, PstI, PvuII and SacI that recognize 6 bp. The observed restriction fragment length polymorphisms (morphs) were classified into 13 types of distinct cleavage patterns (mitotypes). The distributions of the mtDNA morphs were compared with those characteristic of some other human populations.     

Mitochondrial DNA analysis of Sporothrix schenckii clinical isolates from China

Mitochondrial DNA (mtDNA) types based on restriction fragment length polymorphism (RFLP) patterns with HaeIII were investigated in clinical isolates of Sporothrix schenckii in China. In addition to 23 mtDNA types (Types 1-23) so far reported, a new mtDNA type (Type 24) was found in this study. Type 24 was divided into two subtypes, Subtype 24A and 24B based on RFLP with EcoRV. Sixty-seven isolates in China consisted of 58 isolates of Type 4, 5 of Type 6, 1 of Type 5, 1 of Type 20 and 2 of Type 24. Based on the phylogeny of the mtDNA types (Types 1-24) constructed by estimating sequence divergences of mtDNA, mtDNA types clustered into two groups: Group A (Types 1-3, Type 11, Types 14-19 and Types 22-23) and Group B (Types 4-10, Types 12-13, Types 20-21 and Type 24). These results suggest that most S. schenckii isolates in China belong to Group B.     

Mitochondrial DNA polymorphism in Japanese

Summary The mitochondrial DNA (mtDNA) from 120 Japanese was analysed with 15 restriction enzymes that recognize six base pairs, of which 11 enzymes showed at least one atypical cleavage pattern. Digestion patterns with HincII and HaeII were highly polymorphic. The observed restriction enzyme morphs were classified into 22 types of distinct cleavage patterns. By pairwise comparison of each restriction type, the average number of nucleotide substitutions per nucleotide site () was estimated at 0.00417, which agreed with the values obtained from other human populations in previous studies. There were 11 site gains, of which seven were transitions and four were transversions. Phylogenetic analysis of the present data suggested that the Japanese population conceals a considerably high degree of mtDNA diversity.     

Mitochondrial DNA polymorphism in Finnish families with Leber's hereditary optic neuroretinopathy

Summary Leukocyte mitochondrial DNA (mtDNA) from 17 Finnish families iwth Leber's hereditary optic neuroretinopathy and 70 maternally unrelated controls as well as skeletal muscle mtDNA from four of the Leber families and three controls was analyzed with 30 restriction enzymes. By this means, over 10% of the nucleotides of mtDNA were screened. No major deletion or insertion was found in any of the mtDNAs studied. The restriction fragment patterns of mtDNA showed no evidence of mtDNA heteroplasmy (mixture of different mtDNA types) in either blood or muscle cells. In all, 24 mtDNA types were observed in the material. In the maternal lines of Leber families, 11 mtDNA types were found, indicating no recent common maternal ancestor for the Finnish Leber families. In spite of several previously unknown polymorphisms, no mutation of mtDNA could be found exclusively in families with Leber's disease. However, a couple of mutations leading to amino acid replacements of mitochondrially encoded proteins were observed in certain Leber families only. These mutations have occurred in genes coding for subunits of NADH dehydrogenase, suggesting that a defect of the respiratory chain complex I may cause Leber's disease.     

Population structure and local differentiation in the delicate loach, Niwaella delicata, as revealed by mitochondrial DNA and morphological analyses

Population structures of the delicate loach, Niwaella delicata, were inferred from morphology and restriction fragment length polymorphism (RFLP) analysis of part of the mitochondrial DNA (mtDNA) of 25 populations, representing the species range in central Honshu Island. The existence of two types of morphological variation corresponding to regional distributions, the "Pacific slope type" and "Sea of Japan slope type," has been known in N. delicata. Our morphological reexamination of the two types revealed some discrepancies in their distribution pattern. Therefore, we reclassified two new color types corresponded to their distribution areas as "gathered spots type (G type)" and "scattered spots type (S type)," respectively. The present classification of G and S types is closely related to the mtDNA divergence pattern. The current analysis also indicated that each G and S type population was further divided into two genetic groups, corresponding to geographic proximity. In spite of marked morphological differentiation, the genetic diversity between G and S type populations (1.153%) was comparable only to that reported for intraspecific levels in most freshwater fishes. Moreover, in the population of which the color patterns of all fish were characterized to the S type, mtDNA haplotypes corresponding to G and S types were sympatrically detected. This result indicates secondary contact between the two type populations and the possibility that they are not reproductively isolated. Received: June 11, 1999 / Revised: September 30, 2000 / Accepted: January 16, 2001     

Restriction enzyme analysis of mitochondrial DNA in colorectal tumours.

Total cellular DNA samples were isolated from 15 colorectal adenocarcinomas, 8 colon adenomas and their adjacent histologically normal colon mucosa. These DNA samples were digested separately with 13 different restriction endonucleases and analysed by Southern blot hybridization using a purified 32P-labelled human mtDNA probe. The fragment patterns from tumour mtDNA were compared to those from corresponding normal mtDNA. No evidence for large deletions, insertions, rearrangements or single base mutations in the detectable regions was detected. This suggests that other mechanisms may be responsible for the changes of colorectal tumour mitochondria.     

Genetic variation in mitochondrial DNA from some aboriginal Australians

Mitochondrial (mt) DNAs from 17 aboriginal Australians, predominantly from the coastal region of the Northern Territory were isolated and digested with four four-base restriction endonucleases, two of which revealed variation between samples. The observed fragment patterns were used directly in parsimony analyses of phylogenetic relationships between the samples, and were also converted to estimates of the number of substitutions per nucleotide position between samples (delta), which estimates were then used in distance analyses of phylogeny. The inferred fragment patterns of the completely sequenced 'Cambridge' human mtDNA were also included in these analyses. No strong evidence of geographic variation was found, consistent with previous findings of Australian aborigines and other humans generally, although the most divergent sample was one of two from Sydney, indicating that further work is desirable. The estimate of mean difference between samples (diversity), 0.0017 +/- 0.0003 (mean +/- 95% confidence interval), is significantly lower than that reported previously for humans generally.     

Mitochondrial DNA analysis of Sporothrix schenckii clinical isolates from China

Mitochondrial DNA (mtDNA) types based on restriction fragment length polymorphism (RFLP)patterns with HaeIII were investigated in clinical isolates of Sporothrix schenckii in China. In addition to 23 mtDNA types (Types 1–23) so far reported, a new mtDNA type (Type 24) was found in this study. Type 24 was divided into two subtypes, Subtype 24A and 24B based on RFLP with EcoRV. Sixty-seven isolates in China consisted of 58 isolates of Type 4, 5 of Type 6, 1 of Type 5, 1 of Type 20 and 2 of Type 24. Based on the phylogeny of the mtDNA types (Types 1–24) constructed by estimating sequence divergences of mtDNA, mtDNA types clustered into two groups: Group A (Types 1–3, Type 11, Types 14–19 and Types 22–23) and Group B (Types 4–10, Types 12–13,Types 20–21 and Type 24). These results suggest that mostS. schenckii isolates in China belong to Group B.This revised version was published online in October 2005 with corrections to the Cover Date.     

Differential accumulations of 4,977 bp deletion in mitochondrial DNA of various tissues in human ageing

Several types of deletions in mitochondrial DNA (mtDNA) have been recetly identified in various tissues of old humans. In order to determine whether there are differences in the incidence and proportion of deleted mtDNAs in different tissues during human ageing, we examined tha 4,977 bp deletion in mtDNA of various tissues from subjects of different ages. Total DNA was extracted from each of the biopsied tissues and was serially diluted by two-fold with distilled water. A 533 bp DNA fragment was amplified by PCR from total mtDNA using a pair of primers L3304-3323 and H3817-3836, and another 524 bp PCR product was amplified from 4,977 bp deleted mtDNA by identical conditions using another pair of primers L8150-8166 and H13631-13650. The maximum dilution fold of each sample that still allowed the ethidium bromide-stained PCR product (533 bp or 524 bp) in the agarose gel to be visible under UV light illumination was taken as the relative abundance of the mtDNA (wild-type or mutant) in the original sample. By this method, we were able to determine the proportion of deleted mtDNA in human tissues. We found that the 4,977 bp deletion started to appear in the second and third decades of life in human muscle and liver tissues. But the deletion was not detectable in the testis until the age of 60 years. Moreover, the proportion of deleted mtDNA varied greatly in different tissues. Among the tissues examined, muscle was found to harbor higher proportin of deleted mtDNA than the other tissues. The average proportion of the 4,977 bp depleted mtDNA of the muscle from subjects over 70 years old was approximately 0.06%, and that of the liver and the testis was 0.0076% and 0.05%, respectively. These findings suggest that the frequency and proportion of the deleted mtDNA in human tissues increase with age and that the mtDNA deletions occur more frequently and abundantly in high energy-demanding tissues during the ageing process of the human.     

Origin and differentiation of human mitochondrial DNA.

A recent study of mitochondrial DNA (mtDNA) polymorphism has generated much debate about modern human origins by proposing the existence of an "African Eve" living 200,000 years ago somewhere in Africa. In an attempt to synthesize information concerning human mtDNA genetic polymorphism, all available data on mtDNA RFLP have been gathered. A phylogeny of the mtDNA types found in 10 populations reveals that all types could have issued from a single common ancestral type. The distribution of shared types between continental groups indicates that caucasoid populations could be the closest to an ancestral population from which all other continental groups would have diverged. A partial phylogeny of the types found in five other populations also demonstrates that the myth of an African Eden was based on an incorrect "genealogical tree" of mtDNA types. Two measures of molecular diversity have been computed on all samples on the basis of mtDNA type frequencies, on one hand, and on the basis of the number of polymorphic sites in the samples, on the other. A large discrepancy is found between the two measures except in African populations; this suggests the existence of some differential selective mechanisms. The lapse of time necessary for creating the observed molecular diversity from an ancestral monomorphic population has been calculated and is found generally greater in Oriental and caucasoid populations. Implications concerning human mtDNA evolution are discussed.     

Characterization of mitochondrial DNA in chloramphenicol-resistant interspecific hybrids and a cybrid

We have examined the restriction endonuclease cleavage patterns exhibited by the mitochondrial DNAs (mtDNA) of four chloramphenicol-resistant (CAPR) human x mouse hybrids and one CAPR cybrid derived from CAPR HeLa cells and CAPS mouse RAG cells. Restriction fragments of mtDNAs were separated by electrophoresis and transferred by the Southern technique to diazobenzyloxymethyl paper. The covalently bound DNA fragments were hybridized initially with 32P-labeled complementary RNA (cRNA) prepared from human mtDNA and, after removal of the human probe, hybridized with mouse [32P]cRNA prepared from mouse mtDNA. Three hybrids which preferentially segregated human chromosomes and the cybrid exhibited mtDNA fragments indistinguishable from mouse cells. One hybrid, ROH8A, which exhibited "reverse" chromosome segregation, contained only human mtDNA. The pattern of chromosome and mtDNA segregation observed in these hybrids and the cybrid support the hypothesis that a complete set of human chromosomes must be retained if a human-mouse hybrid is to retain human mitochondrial DNA.     

Evolution of human mitochondrial DNA: Evidence for departure from a pure neutral model of populations at equilibrium

Summary Human mitochondrial DNA (mtDNA) data from 18 populations have been carefully reexamined. A phylogeny of 77 mtDNA types found among the 1389 individuals analyzed for restriction fragment length polymorphisms (RFLPs) was established using the parsimony principle and compared to a UPGMA tree of the 18 populations. Both analyses agreed in separating African samples from the other populations, though the mtDNA type phylogeny suggested close relations between Africans and other continental groups. Conformity of observed mtDNA type frequency distributions with the infinite allele model was studied for 31 human populations. Several Oriental and Caucasoid populations were found to be overly homogeneous, generally due to an elevated frequency of one particular type. Contrastingly, all African samples conformed to the neutral model of populations at equilibrium and presented more diversified distributions. This suggested that part of the apparent African divergence was due to heterogeneous evolutionary processes and confirmed that some diversity reducing factors were at work in Caucasoids and Orientals. Several nonexclusive hypotheses accounting for the rejection of the neutrality tests were discussed. Alternative hypotheses concerning modern human emergence were also reviewed in the light of present results.     

Mitochondrial and nuclear DNA diversity within six species ofPhytophthora

The extent of intraspecific mitochondrial DNA (mtDNA) diversity was investigated in isolates ofPhytophthora capsici,P. citricola, P. citrophthora, P. megakarya, P. palmivora, andP. parasitica that represented a wide range of host plants and geographic origins. Phenograms were constructed following the analysis of restriction fragment patterns that were generated by several endonucleases. The six species showed different degrees of mtDNA diversity. Restriction fragment patterns inP. palmivora andP. parasitica were very uniform. Distinct subgroups could be distinguished inP. megakarya andP. citrophthora that correlated with the geographic origin or the host plant, respectively. These subgroups did not seem to be closely related to each other. High degrees of diversity were also evident inP. citricola andP. capsici. Although some isolates ofP. capsici had identical mtDNA patterns, no distinct subgroups were found that could be correlated with either a specific host plant or geographic origin. InP. capsici andP. parasitica variation in nuclear DNA was much more pronounced as compared to mtDNA. InP. capsici both types of analysis correlated well. Because of very limited variation of mtDNA inP. parasitica a comparison between the two phenograms was difficult.     

Population biology ofHortaea werneckii based on restriction patterns of mitochondrial DNA

Fifteen isolates ofHortaea werneckii, causative agent of tinea nigra in man, were examined with respect to restriction fragment length polymorphisms of mitochondrial DNA. Seven types of mtDNA, interpreted as populations, could be distinguished, with similarities between the restriction patterns ranging from 32 to 79%. Much of the variance originated from length mutations. Of the seven populations four represented isolates from man, two of which also comprised isolates from other sources. This makes adaptation ofH. werneckii towards association with man in its evolution unlikely; similarity in the chemical and/or physical characteristics of the different isolation sources, viz. salinity, seems more probable. mtDNA types were not correlated with geographic origin. Isolates with the same mtDNA type are widely geographically distributed.     

Genetic relationship among the musk shrews,Suncus murinus insectivora,inhabiting islands and the continent based on mitochondrial DNA types

Cleavage patterns of mitochondrial DNA (mtDNA) by restriction endonucleases were examined in musk shrews collected at six trapping sites on two Japanese and two Indonesian islands, on Sri Lanka, situated close to the Indian subcontinent, and on the mainland of East Bengal in Bangladesh. No variation of mtDNAs was found among the Japanese and Indonesian shrews, despite their geographical isolation by the sea. In contrast, at least six mtDNA types were present in the Sri Lanka and the Bangladesh populations (three types for each), and these two populations seemed to be differentiated to the extent, which could be compared to the mice-intersubspecific differences. These populations were also differentiated from the Japanese-Indonesian type. Furthermore, a similar level of differentiation was also estimated between two mtDNA types within these respective populations. This feral species might be considered unique because of its high emigration rate caused by human movements and its high rate of subspecific hybridization.     

Restriction Enzyme Analysis of Mitochondrial DNA of Acanthamoeba Strains in Japan

ABSTRACT. Eight isolates, identified as either Acanthamoeba castellanii or A. polyphaga from human eye infections, contact lens containers, and soil in Japan, were characterized by restriction fragment length polymorphisms (RFLP) of mitochondrial DNA (mtDNA). Mitochondrial DNA was digested with either Bgl II, Eco R I, Hind III, Hpa I, Sca I or Xba I, electrophoresed in agarose gels, and stained with ethidium bromide. Four distinct RFLP phenotypes that refer to the collection of six fragment size patterns obtained for a single strain with six enzymes, were discovered among the eight strains used in this study. Three strains morphologically classified as A. polyphaga share a single RFLP phenotype with the Ma strain of A. castellanii. The interspecific sequence differences of 7.06–12.74% in DNA nucleotide were estimated from the proportion of DNA fragments shared by each pair of mtDNA.     

Restriction enzyme analysis of mitochondrial DNA of Acanthamoeba strains in Japan

Eight isolates, identified as either Acanthamoeba castellanii or A. polyphaga from human eye infections, contact lens containers, and soil in Japan, were characterized by restriction fragment length polymorphisms (RFLP) of mitochondrial DNA (mtDNA). Mitochondrial DNA was digested with either Bgl II, EcoR I, Hind III, Hpa I, Sca I or Xba I, electrophoresed in agarose gels, and stained with ethidium bromide. Four distinct RFLP phenotypes that refer to the collection of six fragment size patterns obtained for a single strain with six enzymes, were discovered among the eight strains used in this study. Three strains morphologically classified as A. polyphaga share a single RFLP phenotype with the Ma strain of A. castellanii. The interspecific sequence differences of 7.06-12.74% in DNA nucleotide were estimated from the proportion of DNA fragments shared by each pair of mtDNA.     

Involvement of DNA ligase III and ribonuclease H1 in mitochondrial DNA replication in cultured human cells

Recent evidence suggests that coupled leading and lagging strand DNA synthesis operates in mammalian mitochondrial DNA (mtDNA) replication, but the factors involved in lagging strand synthesis are largely uncharacterised. We investigated the effect of knockdown of the candidate proteins in cultured human cells under conditions where mtDNA appears to replicate chiefly via coupled leading and lagging strand DNA synthesis to restore the copy number of mtDNA to normal levels after transient mtDNA depletion. DNA ligase III knockdown attenuated the recovery of mtDNA copy number and appeared to cause single strand nicks in replicating mtDNA molecules, suggesting the involvement of DNA ligase III in Okazaki fragment ligation in human mitochondria. Knockdown of ribonuclease (RNase) H1 completely prevented the mtDNA copy number restoration, and replication intermediates with increased single strand nicks were readily observed. On the other hand, knockdown of neither flap endonuclease 1 (FEN1) nor DNA2 affected mtDNA replication. These findings imply that RNase H1 is indispensable for the progression of mtDNA synthesis through removing RNA primers from Okazaki fragments. In the nucleus, Okazaki fragments are ligated by DNA ligase I, and the RNase H2 is involved in Okazaki fragment processing. This study thus proposes that the mitochondrial replication system utilises distinct proteins, DNA ligase III and RNase H1, for Okazaki fragment maturation.