中国青海藏族、汉族mtDNA控制区遗传多态性

目的研究中国青海藏族、汉族mtDNA控制区遗传多态性。方法收集69份青海藏族和青海汉族无关人群外周血样本，对其mtDNA控制区进行序列分析，计算多个多态性指标。结合其他民族mtDNA遗传资料，根据Nei法计算包括青海藏族和汉族群体在内的11个群体之间的Fst和Rst遗传距离．进行聚类分析，绘制系统发生树。结果在青海藏族和汉族群体mtDNA控制区中分别发现56和59个多态性位点。Rst遗传距离显示青海藏族人群与各人群之间遗传距离均较远（P〈0．05）；青海汉族人群与西安汉族、蒙古族、长沙汉族等人群之间距离较近（P〉0．05）。结论我国青海藏族和汉族人群mtDNA具有相对独特的遗传特征，其遗传多态性和个体识别力较高，可用于民族起源、迁徙、法医学个体识别等领域研究。     

用dHPLC技术检测线粒体DNA编码区单核苷酸多态性

目的研究线粒体DNA(m tDNA)编码区单核苷酸多态性,建立检测m tDNA编码区单核苷酸多态性(SNP)的变性高效液相色谱(dHPLC)方法。方法设计针对线粒体DNA编码区nt10287-10679及nt8507-8805引物,应用dHPLC技术检测其序列多态性。结果100例中国汉族无关个体中,m tDNA nt10287-10679检出13个SNP位点,13种单倍型,基因多样性(H)为70.79%,偶合概率(P)为29.92%;m tDNA nt8507-8805检出10个SNP位点,12种单倍型,H为70.42%,P为30.28%;两段序列联合起来共检出23个SNP位点,23种单倍型,H为84.14%,P为16.70%。结论所建立的dHPLC方法可用于快速、准确地检测m tDNA编码区序列多态性;m tDNA编码区多态性位点作为m tDNA控制区多态性位点的补充,联合应用可以提高m tDNA的个体识别能力。     

Development of Multiple Assays using 46 SNPs for Comprehensive mtDNA Haplogrouping and Application to Highly Degraded DNA

Six multiplex PCR systems using single‐base extension reactions to analyze 46 mitochondrial DNA (mtDNA)‐coding region single nucleotide polymorphisms (SNPs) that define 42 haplogroups, that is, 24 major mtDNA haplogroups and 18 subclades, were devised. To improve the usefulness of the established systems for the analysis of degraded DNA samples, novel primers to render amplicons with sizes <150 bp were designed. By applying these systems to 214 Japanese individuals, 24 different haplogroups (power of discrimination = 93.4%) were found. To assess the effectiveness of our systems in grouping degraded DNA, an ancient bone sample of a Jomon skeleton was analyzed and then classified as haplogroup N9b. We conclude that the present systems are powerful screening tools for major haplogroups of mtDNA in addition to the prevalent subhaplogroups in the Japanese population and that these systems are capable of analyzing highly degraded DNA samples in forensic studies.     

The Use of Mitochondrial DNA Single Nucleotide Polymorphisms to Assist in the Resolution of Three Challenging Forensic Cases

Abstract:  Mitochondrial DNA (mtDNA) single nucleotide polymorphisms (SNPs) in an 11-plex assay were typed in three missing person cases involving highly degraded human remains. Unlike the traditional forensic approach to analyzing mtDNA which focuses on sequencing portions of the noncoding Control Region, this assay targets discriminatory SNPs that reside principally in the coding region. In two of the cases, the SNP typing successfully excluded one of two reference families that could not be excluded on the basis of mtDNA hypervariable region sequencing alone, and resulted in the final resolution of both decades-old cases. In a third case, SNP typing confirmed the sorting and reassociation of multiple commingled skeletal elements. The application of a specific mtDNA SNP assay in these cases demonstrates its utility in distinguishing samples when the most common Caucasian hypervariable region type is encountered in forensic casework.     

单核苷酸多态性与法医学DNA分型技术

单核苷酸多态性(single nucleotide polymorphism,SNP)分型技术越来越成为法医学领域关注的热点,它在研究Y染色体或线粒体单倍型以及DNA表型的分析中具有重要应用价值。本文着重比较分析了SNP技术与片段长度多态性技术之间的优劣,同时就当前STR位点识别概率与所需选择的SNP位点数进行探讨。此外,本文还就各类SNP分型方法的优缺点及其法医学应用进行了论述。     

Revisiting the matrilineal lineages and hypoxic adaptation of highland Tibetans

The mitochondrial DNA (mtDNA) plays a vital role in forensic, anthropological, biogeographical and genealogical studies. In the present study, we sequenced 59 mitochondrial genomes of Tibetan individuals settling in Muli Tibetan Autonomous County of Sichuan Province using the Precision ID mtDNA Whole Genome Panel and Ion S5 XL system. Meanwhile, 192 published complete mitogenomes from five Tibetan populations were included for further analysis. All 251 investigated Tibetan participants were assigned to 98 unique subclades pertained to the macrohaplogroups M and N, and 17 subhaplogroups were considered as major haplogroups of Tibetans since these subhaplogroups accounted for considerably high frequencies in randomly selected Tibetans. It was noteworthy that M9a1a1c1b1a was the predominant subhaplogroup in the Tibetans collectively. Furthermore, the nonsynonymous substitutions and synonymous substitutions ratios (N/S) of Tibetans, Tibetan highlanders (Monpas, Lhobas, Dengs and Sherpas), non-Tibetan highlanders and general populations were estimated to evaluate the potential selective constraints. The N/S ratio in the Tibetan groups (0.503) is higher than that in Tibetan highlanders (0.465), non-Tibetan highlanders (0.430) and general populations (0.415). The distributions of N/S ratio in 13 protein-coding genes revealed that significant differences were existed in COX2, ATP8 genes, which likely contributed to hypoxic adaptation.     

Mitochondrial DNA sequencing of cat hair: an informative forensic tool

Approximately 81.7 million cats are in 37.5 million U.S. households. Shed fur can be criminal evidence because of transfer to victims, suspects, and/or their belongings. To improve cat hairs as forensic evidence, the mtDNA control region from single hairs, with and without root tags, was sequenced. A dataset of a 402-bp control region segment from 174 random-bred cats representing four U.S. geographic areas was generated to determine the informativeness of the mtDNA region. Thirty-two mtDNA mitotypes were observed ranging in frequencies from 0.6-27%. Four common types occurred in all populations. Low heteroplasmy, 1.7%, was determined. Unique mitotypes were found in 18 individuals, 10.3% of the population studied. The calculated discrimination power implied that 8.3 of 10 randomly selected individuals can be excluded by this region. The genetic characteristics of the region and the generated dataset support the use of this cat mtDNA region in forensic applications.     

Typing the 1.1 kb control region of human mitochondrial DNA in Japanese individuals

This study presents a reliable method that uses high-fidelity long-range PCR and optimized primers to assess polymorphism and to genotype human mitochondrial DNA (mtDNA). This method was used to analyze polymorphic sites in the human mtDNA control region, including hypervariable regions I, II, and III (HVI, HVII, and HVIII), from 124 unrelated Japanese individuals. In HVI, HVII, and HVIII, 80, 37, and 14 polymorphic sites were identified, respectively, excluding those in the homopolymeric cytosine stretch (C-stretch) regions. The region between HVI and HVII also contained 15 polymorphic sites. On the other hand, C-stretch length heteroplasmy in HVI or HVII was observed in 66 of 124 Japanese individuals (53%), which is much higher than in Caucasian populations. The variants in the C-stretch regions were characterized by counting the number of heteroplasmic peaks split from the single peak in homoplasmic sequences (i.e., 16244G and 16255G in HVI and 285G in HVII). Including the C-stretch length heteroplasmy, the 124 Japanese mtDNA samples were classified into 116 distinct haplotypes. The random match probability and the genetic diversity were estimated to be 0.95% and 0.998581, respectively, indicating that the method presented here has higher discrimination than the conventional method for mtDNA typing using HVI and HVII. [Correction added after publication 30 January 2007: in the preceding sentence random match probability and genetic diversity estimates were corrected from 0.95 and 0.998581%, respectively, to 0.95% and 0.998581, respectively.] The haplogroups and their frequencies observed in this study (i.e., D4; 13.7%, M7a1; 11.3%, D4a; 9.7% and M7b2; 8.9%) were similar to those observed in other studies of Japanese mtDNA polymorphism. The method described here is suitable for forensic applications, as shown by successful analysis of tissues from highly putrefied remains of an infant, which allowed maternal relationship to be determined via mtDNA haplotyping.     

Analysis of genetic polymorphisms associated with the presence of freckles for phenotypic prediction

The prediction of externally visible characteristics (EVCs) is a commonly used practice by the forensic sciences as an important resource in the investigation of criminal cases in which the identity of perpetrators or victims is unknown or even to recognize decomposed cadavers. With this purpose, genetic markers associated with pigmentation traits have been widely studied by forensic scientists and, nowadays, it is possible to predict phenotypic characteristics such as hair, eyes and skin colour, as well as the presence of skin freckles by analysing single nucleotide polymorphisms (SNPs). In this study, we analysed the association of six SNPs located in pigmentation genes to the presence of freckles in individuals from the Brazilian population for forensic DNA phenotyping. The study was based within the context of a larger project on a population sample of 534 adult Brazilians of both sexes and different skin colours. DNA was extracted from peripheral blood and genotyped using the TaqMan® OpenArray® Real-Time PCR System (ThermoFischer Scientific) technique. Statistical analyses were carried out with the R software (version 4.0.2). As for the results obtained, three SNPs were shown to be statistically associated to the freckling, rs12203592, rs1800404 and rs222847, with CT, AG and AA genotypes being the main contributors, respectively. Variables such as sex of the individuals and skin colour were found to also contribute to the manifestation of this pigmentation trait. Further statistical analyses will be carried out to evaluate the possibility of using the SNPs in this study for phenotyping prediction of the Brazilian population, improving existing DNA phenotyping models in forensic sciences.     

中国汉族人mtDNA控制区异质性遗传规律

目的探讨中国汉族人mtDNA控制区异质性分布情况和遗传规律。方法将人mtDNA控制区扩增成6个部分互相重叠的片段,利用已建立的DHPLC技术分析其异质性规律。结果对150例汉族无关个体的多种组织检测,发现异质性个体的发生率达34%(51/150);个体的组织mtDNA异质性检出率最高为脑(50/150)、心肌(48/150)、最低为骨骼(22/150);本组共发现mtDNA控制区异质性位点有36个;同一个体可有多个异质性位点,最多的不超过3个;未发现异质性发生率有性别差异;超过41岁的高年龄组的异质性发生率(27/59)高于低年龄组(24/91);同一个体在2年前后取的血样,异质性检测结果一致;同一母系不同成员的异质性位点相同,但异质性mtDNA的含量有差异。结论DHPLC检测mtDNA控制区异质性具有高分辩力;mtDNA控制区异质性在中国汉族人中广泛存在;上述结果可作为mtDNA控制区多态性作个人认定和亲权鉴定的指导性资料。     

中国汉族人群的线粒体DNA控制区多态性研究

探讨mtDNA多态性在法庭科学中个体识别的理论基础。应用PCR扩增产物直接测序方法 ,对 111名中国北方地区汉族人群无血缘关系个体的mtDNA控制区 (HVⅠ和HVⅡ )进行测序分析。在高变区Ⅰ 15 998～ 16 40 0之间发现 10 2处碱基变异 ,10 3个mtDNA单倍型 ;在高变区Ⅱ 0 0 0 35～ 0 0 36 9之间的发现 36处碱基变异 ,6 9个mtDNA单倍型。其可变碱基的变异形式主要为碱基替代 (转换和颠换 )、插入和缺失 ;碱基转换 (78 9% )明显高于颠换(14 3% )、插入 (3 4% ) ,缺失 (3 4% )。分析表明 ,人群个体mtDNA控制区碱基序列 ,基因多样性为 99 9% ,两个无关个体的偶合概率为 0 92 % ,具有高度序列的多态性     

Polymorphism of structural genes of human mitochondrial DNA for forensic medical personal identification

An experimental study is described, which deals with polymorphism of nucleotide sequences of three structural genes of mitochondrial genome, i.e. of the 3d, small 4th, and 6th subunits of the NADN dehydrogenase complex (ND3, ND4L and ND6) sampled from Russian population. The genetic primary structure was analyzed in 63 unrelated individuals. The investigated locuses were shown to possess a pronounced polymorphism. A total of 19 polymorphic positions were detected in the ND3, ND4L and ND6 gene region within the studied sampling. Besides, a possibility is demonstrated in the paper that the mtDNA structural genes can be used as additional identification markers in the forensic experimental typing of the mtDNA control region.     

Evaluating the forensic informativeness of mtDNA haplogroup H sub-typing on a Eurasian scale

The impact of phylogeographic information on mtDNA forensics has been limited to the quality control of published sequences and databases. In this work we use the information already available on Eurasian mtDNA phylogeography to guide the choice of coding-region SNPs for haplogroup H. This sub-typing is particularly important in forensics since, even when sequencing both HVRI and HVRII, the discriminating power is low in some Eurasian populations. We show that a small set (eight) of coding-region SNPs resolves a substantial proportion of the identical haplotypes, as defined by control-region variation alone. Moreover, this SNP set, while substantially increasing the discriminating efficiency in most Eurasian populations by roughly equal amounts, discloses population-specific profiles.     

Optimization and validation of 10 mitochondrial DNA SNPs using SNaPshot Kit

In some forensic cases, nuclear DNA is degraded and cannot be analyzed. In such a case mitochondrial DNA (mtDNA) is usually used in forensic cases for identification because of its special features as high number of copies per cell, maternal inheritance and high mutation rate. Single nucleotide polymorphisms (SNPs) represent the most abundant class of human polymorphisms. The aim of this study was optimization of 10 mtDNA SNPs by using SNaPshot minisequencing technique on ABI310 genetic analyser in forensic molecular genetics laboratory. At the end of this study, the optimization of minisequencing technique was done by changing some assay parameters. Also, during the optimization of 10 mtSNP loci in our laboratory.     

Evaluation of skin-related variants in African ancestry populations and their role in personal identification

Pigment-related genetic variants point out their role in personal identification as they can be considered predictors suitable for Forensic DNA Phenotyping (FDP) and mounting evidence suggest also their bio-geographic inferential power for gaining information about the individual geographical origin. As they could be regarded as AIMs (Ancestry Informative Markers) they are powerful tools for inferring genetic composition of admixed population. Despite the huge range of skin tones across our species, little is known about genetic basis in global population and particularly our knowledge is less precise for those showing a complex historical and genomic background. The current research aims to explore the allelic status in several SNPs mapped in selected genes known to be involved in skin pigmentation: OCA2, HERC2, SLC45A2, SLC24A5 and two intergenic regions between BEND7/PRPF18 and EIF2S2/ASIP. The genetic evaluation has been performed on selected African and African derived populations: Fon, Dendi, Bariba and Berba communities from Benin, and Afroecuadorians. Data integration has been made up merging genotypic results with available information from major biological data warehouse as Phase 3–1000 Genomes Project or International HapMap Project in order to obtain a selected populations panel useful for their use as inferential model training set to test the likelihood of correct assignment to geographically differentiated human groups. The proposed variants panel seems to properly interpret the geographic variation and some new interesting evidence could be pointed out in African mixed populations, that seem to be differentially distributed if the total panel is considered. Understanding human pigmentation architecture can provide fundamental insight into genetic interaction of complex traits and the relationship between environmental adaptation and population history. In addition, the results support the use of phenotypic inference along with bio-geographical ancestry information as valid auxiliary tools in personal identification.     

MtSNP typing before mtDNA sequencing: Why do it?

Analysis of control mitochondrial DNA (mtDNA) hypervariable regions is sometimes the only available method to study hair evidence in forensic casework although being a laborious technique. Nowadays there is a huge interest in new genetic markers such as single nucleotide polymorphisms (SNPs) to type degraded forensic samples. For that purpose, a 10-Plex mitochondrial SNP for haplogroup typing, chosen from several SNP studies and useful to study the most common populations in our laboratory was applied in forensic casework. Hair shafts from three forensic cases with different ethnic backgrounds were studied with mtDNA sequencing and compared with mitochondrial SNPs (mtSNPs) study. Coding mtSNP typing prior to sequencing can allow for a rapid screening in forensic casework, which is emphasized in the first two cases. Moreover, in cases in which mtDNA sequencing fails, mtSNPs can still be detected. This 10 SNP loci multiplex provides a less expensive and simpler method for mitochondrial typing compared to control region mtDNA sequencing, especially when used as a fast screening method.     

Nucleotide variability of HV-I in Afro-descendents populations of the Brazilian Amazon Region

The analysis of genetic variation in the nucleotide sequences of mitochondrial DNA, provides unique information about the population diversity and human identification. In this study, the mitochondrial DNA sequences of the first hypervariable region (HV-I) were analyzed in 243 unrelated individuals of seven Afro-descendents populations of the Amazon Region. Sequence polymorphisms were detected using PCR and direct sequencing analysis. A total of 133 different haplotypes were found determined by 97 variable nucleotides. Each one of the three more frequent haplotypes was shared by 9 samples and 91 sequences were unique. The genetic diversity was estimated to 0.9898+/-0.0016 and the probability of two random individuals showed identical mitochondrial DNA (mtDNA) haplotypes were 1.2%.     

Development of a genetic traceability test in pig based on single nucleotide polymorphism detection

In order to assure traceability along the meat transformation process, a powerful system is required. The administrative traceability shows limits that the use of genetic markers could overcome. The individual genomes contain sequence differences, basis of the genetic polymorphism of which the genetic markers are the witnesses. Among them, two classes seem to dominate on the traceability field: the microsatellites and the single nucleotide polymorphisms (SNP). The aim of this work was to develop a genetic traceability test in pig based on SNPs mainly located in 5' and 3' untranslated regions (UTRs). A set of 21 SNP markers including new SNPs identified in this study and SNPs previously described was selected. A genotyping assay was performed on 96 individuals representing the major crossbred of the pig population in Belgium. Results showed that all individuals tested presented a different genotype. This genotyping method might help the administrative system to guarantee the traceability of pork meat along the transformation process.     

Characterization of human control region sequences of the African American SWGDAM forensic mtDNA data set

The scientific working group on DNA analysis Methods (SWGDAM) mitochondrial DNA (mtDNA) population data set is used to infer the relative rarity of control region mtDNA profiles obtained from evidence samples and of profiles used for identification of missing persons. In this study, the African American haplogroup patterns in the SWGDAM data were analyzed in a phylogenetic context to determine relevant single nucleotide polymorphisms (SNPs) and to describe haplogroup distributions for Africans observed in these data sets. Over 200 SNPs (n=217) were observed in the African American data set (n=1148). These SNPs ranged from having 1-39 changes in the phylogenetic tree, with sites 152 and 16519 being the most variable. On average there were 5.8 changes for a character on the tree. The most variable sites (with 19 or more changes each) observed included 16093, 16129, 16189, 16311, 16362, 16519, 146, 150, 152, 189, and 195. These rapidly changing sites are consistent with other published analyses. Only 34 SNPs are needed to identify all clusters containing 10 or more individuals in the African American data set. The results show that the African American SWGDAM mtDNA data set contains variation consistent with that described in continental African populations. Thirteen of the 18 haplogroups previously observed in African populations were observed and include: L1a, L1b, L1c, L2a, L2b, L2c, L3b, L3d, L3e1, L3e2, L3e3, L3e4 and L3f. Haplogroup L2a is the most commonly observed cluster (18.8%) in the African American data set. The next most common haplogroups in the African American data set include the clusters L1c (11.0%), L1b (9.1%), L3e2 (9.0%) and L3b (8.1%). Approximately 8% of the haplogroups observed within African Americans were common in European Caucasians or East Asians; these were H (n=32), J (n=4), K (n=5), T (n=2), U5 (n=6), U6 (n=9 also known from North Africa), A (n=12), B (n=7), C (n=4), and M (n=16), respectively. The European Caucasian and East Asian haplogroups are expected due to admixture between individuals with recent ancestry in Western Eurasia and sub-Saharan Africa. The genetic characterization of these relevant data sets is fully consistent with other published mtDNA genetic variation. The sequence diversity observed in this data set makes it a valuable tool for forensic applications.