Sequence polymorphisms of mtDNA HV1, HV2 and HV3 regions in eight population groups living in Taiwan

Analysis of human mitochondrial DNA (mtDNA) polymorphisms in the D-loop region has become a useful tool in forensic casework and matrilineal origin research. In this study, the mtDNA D-loop region including hypervariable region 1 (HV1), hypervariable region 2 (HV2), segment between HV1 and HV2 (7S DNA spanned region), and extended hypervariable region 3 (HV3ex) was sequenced in 539 unrelated individuals from eight population groups living in Taiwan. Combined analyses of the complete D-loop revealed a total of 383 haplotypes with 319 unique haplotypes. The probability of any two individuals sharing the same mtDNA haplotype decreased as the combination of control region segments extended and reached 0.48% with the combination of a complete D-loop region. Sequence variants in HV3ex can further discriminate the haplotypes in some population groups. Phylogenetic haplogroups of these subjects were analyzed. The multidimensional scaling plots of these population groups, constructed based on sequence of the complete D-loop, demonstrated a clear matrilineal genetic substructure in this area. In conclusion, this database of mtDNA complete D-loop sequence including HV3 can serve as a reference for forensic identification. Sequence polymorphisms of the D-loop located outside the HV1 and HV2 may be helpful in further haplogroup characterization.     

Mitochondrial DNA analysis of Swedish population samples

As a contribution to the geographic coverage of EMPOP, currently the best available forensic mitochondrial DNA (mtDNA) database, a total of 299 Swedish individuals were analysed by sequencing of the first and second hypervariable regions of the mtDNA genome. In this sample set, a total of 179 different haplotypes were detected. The genetic diversity was estimated to be 0.9895 (±0.0023), and the random match probability was 1.39 %. The most abundant haplogroups were HV (including its subhaplogroups H and V) with a frequency of 46.5 %, followed by haplogroup U (including its subhaplogroup K) at 27.8 %, haplogroup T at 10.0 % and haplogroup J at 7.0 %, a distribution that is consistent with previous observations in other European populations.     

Sequence polymorphism of the mitochondrial DNA control region in the population of Vojvodina Province,Serbia

In order to generate and establish the database for forensic identification purposes in Vojvodina Province (Serbia), the sequence of the hypervariable regions 1 (HV1) and 2 (HV2) of the mtDNA control region were determined in a population of 104 unrelated individuals from Vojvodina Province, using a fluorescent-based capillary electrophoresis sequencing method. A total of 93 different haplotypes were found, of these 83 mtDNA types were unique, nine haplotypes were shared by two individuals and one haplotype by three individuals. The variation of mtDNA HV1 and HV2 regions was confined to 116 nucleotide positions, of which 72 were observed in the HV1 and 44 in the HV2. A statistical estimate of the results for this population showed the genetic diversity of 0.9977 and the random match probability of 1.18%. Haplogroup H was the most common haplogroup (43.3%). Haplogroups observed at intermediate levels included clusters U (13.5%), T (10.6%), J (8.6%) and W (5.8%).     

Sequence polymorphisms of mtDNA HV1, HV2, and HV3 regions in the Malay population of Peninsular Malaysia

The uniparentally inherited mitochondrial DNA (mtDNA) is in the limelight for the past two decades, in studies relating to demographic history of mankind and in forensic kinship testing. In this study, human mtDNA hypervariable segments 1, 2, and 3 (HV1, HV2, and HV3) were analyzed in 248 unrelated Malay individuals in Peninsular Malaysia. Combined analyses of HV1, HV2, and HV3 revealed a total of 180 mtDNA haplotypes with 149 unique haplotypes and 31 haplotypes occurring in more than one individual. The genetic diversity was estimated to be 99.47%, and the probability of any two individuals sharing the same mtDNA haplotype was 0.93%. The most frequent mtDNA haplotype (73, 146, 150, 195, 263, 315.1C, 16140, 16182C, 16183C, 16189, 16217, 16274, and 16335) was shared by 11 (4.44%) individuals. The nucleotide diversity and mean of pair-wise differences were found to be 0.036063 ± 0.020101 and 12.544022 ± 6.230486, respectively.     

Investigation of mtDNA control region sequences in an Egyptian population sample

The sequences of mitochondrial DNA (mtDNA) control region were investigated in 101 unrelated individuals living in the northern region of Nile delta (Gharbia, N = 55 and Kafrelsheikh, N = 46). DNA was extracted from blood stained filter papers or buccal swabs. HV1, HV2 and HV3 were PCR amplified and sequenced; the resulted sequences were aligned and compared with revised Cambridge sequence (rCRS). The results revealed presence of total 93 different haplotypes, 86 of them are unique and 7 are shared haplotypes, the most common haplotype, was observed with a frequency, 2.97% of population sample. High mtDNA diversity was observed with genetic diversity and power of discrimination, 0.9982 and 0.9883, respectively. In this dataset the west Eurasian haplogroups predominated over the African haplogroups. The results would be useful for forensic examinations and human genetic studies.     

HVI and HVII mitochondrial DNA data in Apaches and Navajos

Most mtDNA studies on Native Americans have concentrated on hypervariable region I (HVI) sequence data. Mitochondrial DNA haplotype data from hypervariable regions I and II (HVI and HVII) have been compiled from Apaches (N=180) and Navajos (N=146). The inclusion of HVII data increases the amount of information that can be obtained from low diversity population groups. Less mtDNA variation was observed in the Apaches and Navajos than in major population groups. The majority of the mtDNA sequences were observed more than once; only 17.8% (32/180) of the Apache sequences and 25.8% of the Navajo sequences were observed once. Most of the haplotypes in Apaches and Navajos fall into the A and B haplogroups. Although a limited number of haplogroups were observed, both sample populations exhibit sufficient variation for forensic mtDNA typing. Genetic diversity was 0.930 in the Apache sample and 0.963 in the Navajo sample. The random match probability was 7.48% in the Apache sample and 4.40% in the Navajo sample. The average number of nucleotide differences between individuals in a database is 9.0 in the Navajo sample and 7.7 in the Apache sample. The data demonstrate that mtDNA sequencing can be informative in forensic cases where Native American population data are used.     

Sequence polymorphism of mitochondrial DNA in Japanese individuals from Gifu Prefecture

Sequence polymorphisms of the hypervariable region HV1 in mitochondrial DNA (mtDNA) were analyzed in a sample of 137 unrelated Japanese individuals living in Gifu Prefecture (central region of Japan) using polymerase chain reaction amplification and direct sequencing. Eighty-two different haplotypes resulting from 81 variable sites were found in the mtDNA HV1 region between positions 16061 and 16450. The most frequent haplotype (16223T, 16362C) was shared by ten individuals. The genetic diversity and the genetic identity were 0.985 and 0.022, respectively. The C-stretch region located around position 16189 was observed in 23.4% of this population sample. Sequence heteroplasmy at the position 16103 (A/G) was found in one individual.     

Mitochondrial DNA control region sequences in Koreans: identification of useful variable sites and phylogenetic analysis for mtDNA data quality control

We have established a high-quality mtDNA control region sequence database for Koreans. To identify polymorphic sites and to determine their frequencies and haplotype frequencies, the complete mtDNA control region was sequenced in 593 Koreans, and major length variants of poly-cytosine tracts in HV2 and HV3 were determined in length heteroplasmic individuals by PCR analysis using fluorescence-labeled primers. Sequence comparison showed that 494 haplotypes defined by 285 variable sites were found when the major poly-cytosine tract genotypes were considered in distinguishing haplotypes, whereas 441 haplotypes were found when the poly-cytosine tracts were ignored. Statistical parameters indicated that analysis of partial mtDNA control region which encompasses the extended regions of HV1 and HV2, CA dinucleotide repeats in HV3 and nucleotide position 16497, 16519, 456, 489 and 499 (HV1ex+HV2ex+HV3CA+5SNPs) and the analysis of another partial mtDNA control region including extended regions of HV1 and HV2, HV3 region and nucleotide position 16497 and 16519 (HV1ex+HV2ex+HV3+2SNPs) can be used as efficient alternatives for the analysis of the entire mtDNA control region in Koreans. Also, we collated the basic informative SNPs, suggested the important mutation motifs for the assignment of East Asian haplogroups, and classified 592 Korean mtDNAs (99.8%) into various East Asian haplogroups or sub-haplogroups. Haplogroup-directed database comparisons confirmed the absence of any major systematic errors in our data, e.g., a mix-up of site designations, base shifts or mistypings. Electronic supplementary material Supplementary material is available for this article at and accessible for authorised users.     

Expanding the forensic German mitochondrial DNA control region database: genetic diversity as a function of sample size and microgeography

Mitochondrial DNA control region sequences were determined in 109 unrelated German Caucasoid individuals from north west Germany for both hypervariable regions 1 (HV1) and 2 (HV2) and 100 polymorphic nucleotide positions (nps) were found, 63 in HV1 and 37 in HV2. A total of 100 different mtDNA lineages was revealed, of which 7 were shared by 2 individuals and 1 by 3 individuals. The probability of drawing a HV1 sequence match within the north west Germans or within published sets of south Germans and west Austrians is similar (within a factor of 2) to drawing a sequence match between any two of these three population samples. Furthermore, HV1 sequences of 700 male inhabitants of one village in Lower Saxony were generated and these showed a nearly linear increase of the number of different haplotypes with increasing number of individuals, demonstrating that the commonly used haplotype diversity measure (Nei 1987) for population samples tends to underestimate mtDNA diversity in the actual population. Received: 14 January 1999 / Accepted: 15 February 1999     

Mitochondrial DNA population data of HV1 and HV2 sequences from Japanese individuals

Mitochondrial DNA sequences of the hypervariable regions HV1 and HV2 were determined for 1204 unrelated Japanese individuals. A total of 741 different mtDNA haplotypes were found, 157 of which were seen in multiple individuals. Twenty-seven of these individuals showed point heteroplasmy. The most frequent haplotype (16223T-16362C-73G-263G-315.1C) was found in 31 individuals and the second most frequent haplotypes (16129A-16223T- 16362C-73G-152C-263G-309.1C-315.1C) was found in 24 individuals. The haplotypes diversity and random match probability were calculated to be 0.9969 and 0.0040, respectively.     

A rapid mtDNA assay of 22 SNPs in one multiplex reaction increases the power of forensic testing in European Caucasians

We have developed a multiplex mitochondrial (mtDNA) assay of 21 coding region single nucleotide polymorphisms (SNPs) and one control region SNP outside hypervariable region 1 (HVR1) and hypervariable region 2 (HVR2) that can be amplified in a single reverse touchdown polymerase chain reaction. Single base extension using the SNaPshot technique is also carried out as one multiplex. Besides the nine major European haplogroups (i.e. H, I, J, K, T, U, V, W, and X), 16 additional subclades (i.e. N1, X2, X2b, U2′-4/7′-9′, J/T, J1, J1c, HV, H1, H1a1, H1c, H3, H4, H6a, H7a H10) can be detected and classified into a phylogenetic mtDNA tree. By analyzing 130 Caucasoid samples from Germany, 36 different haplotypes were found resulting in a power of discrimination of 93.2%. Although 49% of all samples belonged to superhaplogroup H, the most common haplotype, i.e., haplogroup-specific SNPs plus haplogroup unspecific SNPs, had a frequency of only 18%. This assay is applicable for high-throughput mtDNA analysis and forensic mass screening. It will give additional information to the common control region sequencing of HVR1 and HVR2. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Resolving mitochondrial haplogroups B2 and B4 with next-generation mitogenome sequencing to distinguish Native American from Asian haplotypes

Mitochondrial haplogroup information can be useful in forensic contexts that rely primarily on mitochondrial DNA (mtDNA) testing, which often involve limited or degraded DNA. Due to the phylogeographic patterning of mtDNA in human populations, mitochondrial haplogroups are indicative of maternal ancestry (as mtDNA is a maternally inherited marker). In certain circumstances, maternal ancestry inferred from mitochondrial haplogrouping could be beneficial to forensic investigations. For example, ancestry information could assist in the identification of unknown service members from past conflicts, such as the World War II Battle of Tarawa involving American and Japanese forces. In this context, it could be useful to distinguish Native American mtDNA from Asian mtDNA to bolster the anthropological and circumstantial evidence leading to an identification or foreign national determination. Although most of the founding Native American haplogroups contain diagnostic variants in the mitochondrial control region (CR), haplogroup B2 does not, and this makes it more difficult to distinguish B2 from the parental B4 and closely related B4b haplogroups found in Asia. In this paper, the amount of mtDNA information required to distinguish Native American haplotypes from Asian haplotypes within haplogroup B was examined. Fifty-six samples belonging to subtypes of B2 and B4 were sequenced for the entire mitogenome. Haplogroups were estimated from three ranges of mitochondrial DNA (HV1 and 2, CR, and full mitogenome). Half of the samples could not be precisely haplogrouped without full mitogenome data, although enough variants were often provided to make an accurate B2 versus B4 distinction. Native American B2 haplotypes were distinguishable using CR data alone in 82% of samples, though the remaining samples required full mitogenome data for haplogroup B2 designation. The use of full mitogenome data consistently enables accurate haplogroup determination, and opens the possibility for gaining information on maternal ancestry.     

Characterization of human control region sequences for Spanish individuals in a forensic mtDNA data set

Population data on the hypervariable regions of the mitochondrial DNA (mtDNA) genome are used to convey the relative rarity of mtDNA profiles obtained from evidence samples and of profiles used to identify missing persons. In this study, mtDNA profiles of Spanish individuals (n=312) were analyzed to describe haplogroup distributions and to determine relevant single nucleotide polymorphisms (SNPs) of those haplogroups. All nine common European haplogroups were observed in the sample, and these were divided into subgroups when possible. Haplogroup H was the most common haplogroup. The haplogroups U, J, T, and V were the next most frequent groups, each occurring at a frequency of 6.4% or greater. In addition, African and Asian sequences were present though rare in the samples. The data were compared with and found to be similar to other published data sets. There were 109 SNPs observed in the data set, including 10 positions not previously reported. The most variable sites are consistent with other studies.     

A database of mitochondrial DNA hypervariable regions I and II sequences of individuals from Slovakia

In order to identify polymorphic positions and to determine their frequencies and the frequency of haplotypes in the human mitochondrial control region, two hypervariable regions (HV1 and HV2) of the mitochondrial DNA (mtDNA) of 374 unrelated individuals from Slovakia were amplified and sequenced. Sequence comparison led to the identification of 284 mitochondrial lineages as defined by 163 variable sites. Genetic diversity (GD) was estimated at 0.997 and the probability of two randomly selected individuals from population having identical mtDNA types (random match probability, RMP) for the both regions is 0.60%.     

Mitochondrial control region diversity in Sindhi ethnic group of Pakistan

The entire mitochondrial DNA control region (nt 16024–576) of 88 unrelated individuals of Sindhi ethnic group residing in different parts of Sindh province of Pakistan was sequenced. Out of 66 different observed haplotypes 50 were unique and 16 were shared by more than one individual. Results showed admixture of mtDNA pool constituting the haplogroups derived mainly from South Asia (47.6%) and West Eurasian (35.7%) whereas the contribution of the African haplogroup was very small (2.4%). High values of genetic diversity (0.992), power of discrimination (0.981) and low value of random match probability (0.018) indicates that mtDNA analysis for this population can effectively be used for forensic casework. The results are valuable contribution towards building mtDNA population variation database for this particular ethnic group from Pakistan.     

Paternal and maternal lineages in Guinea-Bissau population

The aim of the present work was to study the origin of paternal and maternal lineages in Guinea-Bissau population, inferred by phylogeographic analyses of mtDNA and Y chromosome defined haplogroups. To determine the male lineages present in Guinea-Bissau, 33 unrelated males were typed using a PCR-SNaPshot multiplex based method including 24 Y-SNPs, which characterize the main haplogroups in sub-Saharan Africa and Western Europe. In the same samples, 17 Y-STRs (included in the YFiler kit, Applied Biosystems) were additionally typed. The most frequent lineages observed were E1b1a (xE1b1a4,7)-M2 (68%) and E1a-M33 (15%). The European haplogroup R1b1-P25 was represented with a frequency of 12%. The two hypervariable mtDNA regions were sequenced in 79 unrelated individuals from Guinea-Bissau, and haplogroups were classified based on control region motifs using mtDNA manager. A high diversity of haplogroups was determined in our sample being the most frequent haplogroups characteristic of populations from sub-Saharan Africa, namely L2a1 (15%), L3d (13%), L2c (9%), L3e4 (9%), L0a1 (8%), L1b (6%) and L1c1 (6%). None of the typical European haplogroups (H, J and T) were found in the present sample of Guinea-Bissau. From our results, it is possible to confirm that Guinea-Bissau presents a typically West African profile, marked by a high frequency of the Y chromosome haplogroup E1b1a(xE1b1a4,7)-M2 and a high proportion of mtDNA lineages belonging to the sub-Saharan specific sub-clusters L1 to L3 (89%). A small European influx has been also detected, although restricted to the male lineages.     

Phylogenetic classification of Japanese mtDNA assisted by complete mitochondrial DNA sequences

We investigated control and coding region polymorphisms in mitochondrial DNA (mtDNA) in 100 unrelated individuals from a Japanese population and determined the basal phylogenetic haplogroup lineages in all samples under updated information. Many of the basal phylogenetic haplogroup lineages assigned on East Asian mtDNA haplogroups corresponded to those previously established. However, new haplogroup lineages such as M7a2a, M7a2b, M7a2*, M7c1b, M11b2*, G2b*, D4c1b1a, D4g2b, A4*, A9, N9b*, B4d1, B4d2, and F1e were identified and established by complete sequencing. Although sequence comparison of the 1.15-kb control region identified 84 mitochondrial haplotypes, examination of coding region polymorphisms increased the total number of haplotypes to 91. Determination of the basal haplogroup lineages increased the discrimination power of mtDNA polymorphisms for personal identification and their usefulness in determining geographic origin in forensic casework in Japanese and other East Asian populations.     

Recent progress in mitochondrial DNA analysis

In this review, we describe the current state of knowledge of mitochondrial genetics of East Asian populations and its application to forensic science. Recent advances in mitochondrial DNA (mtDNA) phylogeny have identified haplogroup-specific single nucleotide polymorphisms (SNPs) and the control region motifs of haplogroups. By analyzing haplogroup-specific SNPs, we can rapidly and accurately connect the mtDNA under study to the relevant haplogroup. Haplogroups are fairly continent- and/or region-specific; therefore, we can infer the ethnic background of that mtDNA. In addition, errors in hypervariable region sequences can be detected by means of haplogroup motif analysis.     

Male lineage strata of Brazilian population disclosed by the simultaneous analysis of STRs and SNPs

Brazil has a large territory divided in five geographical regions harboring highly diverse populations that resulted from different degrees and modes of admixture between Native Americans, Europeans and Africans. In this study, a sample of 605 unrelated males was genotyped for 17 Y-STRs and 46 Y-SNPs aiming a deep characterization of the male gene pool of Rio de Janeiro and its comparison with other Brazilian populations. High values of Y-STR haplotype diversity (0.9999 ± 0.0001) and Y-SNP haplogroup diversity (0.7589 ± 0.0171) were observed. Population comparisons at both haplotype and haplogroup levels showed significant differences between Brazilian South Eastern and Northern populations that can be explained by differences in the proportion of African and Native American Y chromosomes. Statistical significant differences between admixed urban samples from the five regions of Brazil were not previously detected at haplotype level based on smaller size samples from South East, which emphasizes the importance of sample size to detected population stratification for an accurate interpretation of profile matches in kinship and forensic casework. Although not having an intra-population discrimination power as high as the Y-STRs, the Y-SNPs are more powerful to disclose differences in admixed populations. In this study, the combined analysis of these two types of markers proved to be a good strategy to predict population sub-structure, which should be taken into account when delineating forensic database strategies for Y chromosome haplotypes.     

Improving the regional Y-STR haplotype resolution utilizing haplogroup-determining Y-SNPs and the application of machine learning in Y-SNP haplogroup prediction in a forensic Y-STR database: A pilot study on male Chinese Yunnan Zhaoyang Han population

Improving the resolution of the current widely used Y-chromosomal short tandem repeat (Y-STR) dataset is of great importance for forensic investigators, and the current approach is limited, except for the addition of more Y-STR loci. In this research, a regional Y-DNA database was investigated to improve the Y-STR haplotype resolution utilizing a Y-SNP Pedigree Tagging System that includes 24 Y-chromosomal single nucleotide polymorphism (Y-SNP) loci. This pilot study was conducted in the Chinese Yunnan Zhaoyang Han population, and 3473 unrelated male individuals were enrolled. Based on data on the male haplogroups under different panels, the matched or near-matching (NM) Y-STR haplotype pairs from different haplogroups indicated the critical roles of haplogroups in improving the regional Y-STR haplotype resolution. A classic median-joining network analysis was performed using Y-STR or Y-STR/Y-SNP data to reconstruct population substructures, which revealed the ability of Y-SNPs to correct misclassifications from Y-STRs. Additionally, population substructures were reconstructed using multiple unsupervised or supervised dimensionality reduction methods, which indicated the potential of Y-STR haplotypes in predicting Y-SNP haplogroups. Haplogroup prediction models were built based on nine publicly accessible machine-learning (ML) approaches. The results showed that the best prediction accuracy score could reach 99.71% for major haplogroups and 98.54% for detailed haplogroups. Potential influences on prediction accuracy were assessed by adjusting the Y-STR locus numbers, selecting Y-STR loci with various mutabilities, and performing data processing. ML-based predictors generally presented a better prediction accuracy than two available predictors (Nevgen and EA-YPredictor). Three tree models were developed based on the Yfiler Plus panel with unprocessed input data, which showed their strong generalization ability in classifying various Chinese Han subgroups (validation dataset). In conclusion, this study revealed the significance and application prospects of Y-SNP haplogroups in improving regional Y-STR databases. Y-SNP haplogroups can be used to discriminate NM Y-STR haplotype pairs, and it is important for forensic Y-STR databases to develop haplogroup prediction tools to improve the accuracy of biogeographic ancestry inferences.