The impact of mtDNA analysis between positions nt8306 and nt9021 for forensic casework

Identification in forensic casework by mtDNA sequencing is predominantly done by sequencing the non-coding control region (HVI and HVII). In an attempt to further increase the discriminatory power of mtDNA analysis, we sequenced a coding region between nt8306 and nt9021 to identify additional polymorphisms in a group of 61 unrelated German individuals who had mtDNA profiles that occurred more than two times each, as well as a control group of 119 unrelated Germans whose profiles occurred one or two times each. Within these 180 individuals, 38 different polymorphisms in this region were observed; 64.4% of these individuals displayed the Cambridge reference sequence profile plus A8860G. For 28 individuals with the two most common profiles, A263G-315.1insC (N = 18) and A263G-309.1insC-315.1insC (N = 10), additional polymorphisms in this coding region permitted further discrimination of 56 and 40% of the individuals, respectively.     

High frequency of mitochondrial DNA D-loop mutations in Ewing’s sarcoma

Somatic mutations and polymorphisms in the noncoding displacement (D)-loop of mitochondrial DNA (mtDNA) are present in a variety of human cancers. To investigate whether Ewing’s sarcoma (EWS) harbors genetic alterations within the D-loop region and their potential association with EWS carcinogenesis, we analyzed and compared the complete mtDNA D-loop sequences from 17 pairs of tumor tissues and corresponding peripheral blood samples using the direct DNA sequencing method. Our results revealed that 12 of the 17 EWS tumor specimens (70.6%) carried 19 somatic mutations in the D-loop of mtDNA, including 11 single-base substitutions, 3 insertions and 5 deletions. Among the tested 17 patients, we screened a total of 40 germline polymorphisms including one novel sequence variant in the D-loop fragment. Most of these identified mutations and germline variations were clustered within two hypervariable segments (HVS1 and HVS2) as well as the homopolymeric C stretch between nucleotide position 303 and 309. In addition, there was no significant correlation between mtDNA D-loop mutations and various clinicopathological factors of EWS. In conclusion, our study reports for the first time that mtDNA D-loop mutations occur at a high frequency in EWS. These data provide evidence of mtDNA alterations’ possible involvement in the initiation and/or progression of this rare malignancy.     

中国山羊mtDNA D-loop遗传多样性及其起源研究

采用DNA测序技术分析了中国9个山羊品种（板角山羊、成都麻羊、贵州黑山羊、贵州白山羊、黔北麻羊、马头山羊、陕南白山羊、黄淮山羊和雷州山羊）共计128个个体的mtDNA D-loop全序列。结果表明：山羊mtDNA D-loop全序列长度为1212-1213bp,检测到102个变异位点,约占分析位点总数的8．42％,可变位点中转换占99个,颠换2个,1个转换/颠换共存;界定了92种单倍型,有78种为各品种独享单倍型,另外14种为群体内或群体间共享单倍型。9个山羊品种单倍型多样度为0．9333-1．0000,核苷酸多样度为0．7062％-1．8265％,表明中国山羊品种遗传多样性丰富。根据92种mtDNA单倍型构建了中国山羊的NJ分子系统树,聚类表明,中国山羊mtDNA D-loop序列单倍型分为支系A和支系B两大类。支系A包括75种单倍型,代表95个样本,占总数的74．22％;支系B包括17种单倍型,代表33个样本,占总数的25．78％,说明中国山羊存在支系A和支系B两大母系起源。对中国山羊mtDNA D-loop的支系A和支系B进行核苷酸不配对分布曲线分析和Fu的Fs中性检验,分析表明,支系A的分布曲线呈单峰形,Fs值为-24．6491,P值为0．0000,显著偏离中性,表明山羊支系A曾经历群体扩张;支系B呈近似双峰分布,Fs值为-3．3947,P值为0．0980,中性检验差异不显著,表明山羊支系B没有经历群体扩张,群体大小保持相对稳定。山羊支系B可能起源于中国。     

Comparison of the complete mtDNA genome sequences of human cell lines--HL-60 and GM10742A--from individuals with pro-myelocytic leukemia and leber hereditary optic neuropathy, respectively, and the inclusion of HL-60 in the NIST human mitochondrial DNA standard reference material--SRM 2392-I

Forensic and clinical laboratories benefit from DNA standard reference materials (SRMs) that provide the quality control and assurance that their results from sequencing unknown samples are correct. Therefore, the mitochondrial DNA (mtDNA) genome of HL-60, a promyelocytic leukemia cell line, has been completely sequenced by four laboratories and will be available to the forensic and medical communities in the spring of 2003; it will be called National Institute of Standards and Technology (NIST) SRM 2392-I. NIST human mtDNA SRM 2392 will continue to be available and includes the DNA from two apparently healthy individuals. Both SRM 2392 and 2392-I contain all the information (e.g. the sequences of 58 unique primer sets) needed to use these SRMs as positive controls for the amplification and sequencing any DNA. Compared to the templates in SRM 2392, the HL-60 mtDNA in SRM 2392-I has two tRNA differences and more polymorphisms resulting in amino acid changes. Four of these HL-60 mtDNA polymorphisms have been associated with Leber Hereditary Optic Neuropathy (LHON), one as an intermediate mutation and three as secondary mutations. The mtDNA from a cell line (GM10742A) from an individual with LHON was also completely sequenced for comparison and contained some of the same LHON mutations. The combination of these particular LHON associated mutations is also found in phylogenetic haplogroup J and its subset, J2, and may only be indicative that HL-60 belongs to haplogroup J, one of nine haplogroups that characterize Caucasian individuals of European descent or may mean that haplogroup J is more prone to LHON. Both these mtDNA SRMs will provide enhanced quality control in forensic identification, medical diagnosis, and single nucleotide polymorphism detection.     

Sequence variations of mitochondrial DNA D-loop region are associated with familial nasopharyngeal carcinoma

Mitochondrial DNA (mtDNA) D-loop has been identified as a frequent hot spot of mutations in various tumors. The aim here was to investigate the sequence variations of mitochondrial D-loop region in familial nasopharyngeal carcinoma (FNPC) and their possible associations with cancer risk. 29 subjects from 4 Chinese NPC families and 20 sporadic NPC as well as 122 cases of normal control were recruited. mtDNA extracted from peripheral blood was examined by PCR-based assay for D-loop sequence variations, followed by sequencing analysis. Compared with normal control, four high variations and 6 unrepoted novel polymorphisms were found. Particularly, the np16362 and 16519T to C variants show significantly higher (100%, 81.8%) and lower (0, 22.7%) frequencies in FNPC and unaffected pedigree members, respectively. The occurrence of mitochondrial microsatellite instability (mtMSI) at D310 in experimental groups was statistically significantly higher than in normal control (53.3%). Likewise, in Base Variation Rate consistent with the result, there was a statistically significant difference compared with NC (6.05%). Our results indicated that mtDNA exhibited a high rate of sequence variants in patients with NPC and pedigree members and the mtDNA np16362, np16519 variants and mtMSI at D310 are associated with an increased risk of familial nasopharyngeal carcinoma in pedigree members from families with NPC, which might be involved in the NPC carcinogenesis.     

SSCP analysis of pig mitochondrial DNA D-loop region polymorphism

The sequence polymorphism that occurs in the mitochondrial DNA (mtDNA) displacement (D)-loop region is useful as a cytoplasmic DNA marker. We cloned the mtDNA D-loop regions of five breeds of pig by polymerase chain reaction (PCR) and determined their sequences. The sequence diversities in D-loop regions among five breeds of pig were located in the starting area of heavy-strand replication. From these sequences, we designed primers for PCR-mediated single-strand conformation polymorphism (PCR-SSCP) analysis that amplified the most polymorphic 227 bp fragment of the D-loop region. The results of PCR-SSCP analysis clearly showed that four types of polymorphism (A to D) are found in Landrace (A), Large White (A, B), Duroc (A), Göttingen miniature pig (B) and Meishan (C, D). The same polymorphisms were also detected from each porcine embryo by this method. Our results show that PCR-SSCP analysis is useful in detecting polymorphisms in the D-loop region of pigs and pig embryos.     

Asian affinities and continental radiation of the four founding Native American mtDNAs.

The mtDNA variation of 321 individuals from 17 Native American populations was examined by high-resolution restriction endonuclease analysis. All mtDNAs were amplified from a variety of sources by using PCR. The mtDNA of a subset of 38 of these individuals was also analyzed by D-loop sequencing. The resulting data were combined with previous mtDNA data from five other Native American tribes, as well as with data from a variety of Asian populations, and were used to deduce the phylogenetic relationships between mtDNAs and to estimate sequence divergences. This analysis revealed the presence of four haplotype groups (haplogroups A, B, C, and D) in the Amerind, but only one haplogroup (A) in the Na-Dene, and confirmed the independent origins of the Amerinds and the Na-Dene. Further, each haplogroup appeared to have been founded by a single mtDNA haplotype, a result which is consistent with a hypothesized founder effect. Most of the variation within haplogroups was tribal specific, that is, it occurred as tribal private polymorphisms. These observations suggest that the process of tribalization began early in the history of the Amerinds, with relatively little intertribal genetic exchange occurring subsequently. The sequencing of 341 nucleotides in the mtDNA D-loop revealed that the D-loop sequence variation correlated strongly with the four haplogroups defined by restriction analysis, and it indicated that the D-loop variation, like the haplotype variation, arose predominantly after the migration of the ancestral Amerinds across the Bering land bridge.     

Sequence polymorphisms of mitochondrial D-loop and hepatocellular carcinoma outcome

Accumulation of mutations and single nucleotide polymorphisms (SNPs) in the displacement loop (D-loop) of mitochondrial DNA (mtDNA) might be associated with cancer risk and disease outcome. We investigated the prediction power of D-loop SNPs in hepatocellular carcinoma (HCC) patients. No mutation in these HCC patients has prediction power for post-operational survival, whereas two SNP sites (nucleotides 146 T/C and 150 C/T) were identified by the log-rank test for statistically significant prediction of HCC survival. In an overall multivariate analysis, allele 146 was identified as an independent predictor of HCC outcome. The length of survival of patients with allele 146C was significantly shorter than that of patients with allele 146T (relative risk, 2.781; 95% CI, 1.127–6.859; p = 0.026). The analysis of genetic polymorphisms in the mitochondrial D-loop can help identify patient subgroups at high risk of a poor disease outcome.     

Analysis of Human Mitochondrial DNA Polymorphisms in the Japanese Population

The highly polymorphic nature and high amplification efficiency of mitochondrial DNA (mtDNA) is valuable for the analysis of biological evidence in forensic casework, such as the identification of individuals and assignment of race/ethnicity. To be useful, a mtDNA polymorphism database for the Japanese population requires an understanding of the range of haplotype variation and phylogenies of mtDNA sequences. To extend current knowledge on the haplotypes in the Japanese population, this study defines new lineages and provides more detail about some of those previously described. We compared the hypervariable regions (HVRs) of 270 healthy, unrelated Japanese individuals and demonstrated 192 haplotypes. Combining HVR1 and HVR2, the genetic diversity was 0.9935, thus providing a high level of identification capability. Haplogroup status was defined for 160 individuals using HVR1, HVR2, and particular coding region polymorphisms; these individuals belonged to 94 haplotypes, four of which were new lineages. The complete mtDNA sequence was also determined from seven individuals.     

Polymerase chain reaction analysis of mitochondrial DNA polymorphism in N'Dama and Zebu cattle

A study of polymorphisms of mitochondrial DNA (mtDNA) of West African N'Dama (Bos taurus) and East African Zebu (B. indicus) cattle was carried out to obtain information on maternal phylogenetic relationships between these breeds. A relatively large sample size was made possible by using polymerase chain reaction (PCR) amplification of DNA prepared from small blood samples to generate fragments of two known polymorphic mtDNA regions, one within the gene encoding subunit 5 of NADH dehydrogenase and one encompassing the entire D-loop. This approach allowed us to achieve a higher resolution restriction analysis on mtDNA from more animals than would have been possible by conventional methods. PCR-amplified mtDNA of 58 animals from five populations was examined at 26 restriction sites by 16 enzymes. In this way 154 nucleotides of mtDNA were scanned for polymorphism. Six polymorphic sites were located by this means, five of which were within the D-loop and one of which was within the NADH dehydrogenase 5 gene. None of the polymorphisms observed could be con sidered typical of breed or type.     

An ultra-high discrimination Y chromosome short tandem repeat multiplex DNA typing system

In forensic casework, Y chromosome short tandem repeat markers (Y-STRs) are often used to identify a male donor DNA profile in the presence of excess quantities of female DNA, such as is found in many sexual assault investigations. Commercially available Y-STR multiplexes incorporating 12-17 loci are currently used in forensic casework (Promega's PowerPlex Y and Applied Biosystems' AmpFlSTR Yfiler). Despite the robustness of these commercial multiplex Y-STR systems and the ability to discriminate two male individuals in most cases, the coincidence match probabilities between unrelated males are modest compared with the standard set of autosomal STR markers. Hence there is still a need to develop new multiplex systems to supplement these for those cases where additional discriminatory power is desired or where there is a coincidental Y-STR match between potential male participants. Over 400 Y-STR loci have been identified on the Y chromosome. While these have the potential to increase the discrimination potential afforded by the commercially available kits, many have not been well characterized. In the present work, 91 loci were tested for their relative ability to increase the discrimination potential of the commonly used 'core' Y-STR loci. The result of this extensive evaluation was the development of an ultra high discrimination (UHD) multiplex DNA typing system that allows for the robust co-amplification of 14 non-core Y-STR loci. Population studies with a mixed African American and American Caucasian sample set (n = 572) indicated that the overall discriminatory potential of the UHD multiplex was superior to all commercial kits tested. The combined use of the UHD multiplex and the Applied Biosystems' AmpFlSTR Yfiler kit resulted in 100% discrimination of all individuals within the sample set, which presages its potential to maximally augment currently available forensic casework markers. It could also find applications in human evolutionary genetics and genetic genealogy.     

Somatic mutations in the D-loop and decrease in the copy number of mitochondrial DNA in human hepatocellular carcinoma

Somatic mutations in mitochondrial DNA (mtDNA) have been detected in many human cancers, including hepatocellular carcinoma (HCC). The D-loop region was found to be a "hot spot" for mutation in mtDNA of the tumors. However, effects of the D-loop mutations on the copy number of mtDNA in tumor tissues are poorly understood. Using direct sequencing, we examined mutations in the D-loop region of mtDNA in 61 HCCs and the corresponding non-tumor liver tissues. The results revealed that 39.3% of the HCCs carried somatic mutation(s) in the D-loop of mtDNA, and most of these mutations were homoplasmic. Moreover, 37.0% (10/27) of these mutations were T-to-C and G-to-A transitions and 40.7% (11/27) of them were located in the polycytidine stretch between nucleotide position (np) 303 and 309 of mtDNA. In addition, we found that mtDNA copy number of HCC was significantly decreased in 60.5% of the patients with hepatoma, especially in those with somatic mutation(s) in the D-loop of mtDNA (17/24). This decrease in mtDNA copy number was highly associated with the occurrence of point mutations near the replication origin of the heavy-strand of mtDNA. Interestingly, we found that 42.9% (6/14) of the HCCs without mutation in the D-loop had a reduced copy number of mtDNA, indicating that other unidentified factors involved in mitochondrial biogenesis might be defective in the tumor. The results obtained in this study strongly suggest that somatic mutations in the D-loop together with the decrease in the copy number of mtDNA may be an important event during the early phase of liver carcinogenesis.     

重建邻接关系树评估原发性高血压患者的遗传性

探讨原发性高血压患者的遗传性,评估线粒体D环控制区基因变异在高血压发病中的作用。提取原发性高血压患者和正常血压人群DNA各20例,用3对交叉重叠引物扩增全部线粒体控制区D环基因,直接基因测序并重建邻接关系树,分析原发性高血压的基因变异特点。结果发现部分高血压病患者具有明显群聚倾向,与正常血压人群和其他无群聚倾向的高血压患者比较,存在高频率、高密度的D环控制区基因变化（P<0.01）,尤以np152T->C、np182C->T、np189A->G、np247G->A、np16187C->T、np16189T->C、np16264C->T、np16270C->T和np16311T->C等多态性变化显著,并因此造成np16184~16193微卫星区域多聚C长度改变。本研究提示部分高血压病患者有群聚现象,基因型np152C、np182T、np247A、np16187T、np16189C、np16264T、np16270T和np16311C可能是此聚类族高血压患者的易感遗传标记。Abstract：To explore the inheritable character in essential hypertension and to evaluate the role of mitochondrial DNA (mtDNA) variations of the D-loop region in the pathogenesis of hypertension, the entire genome of the D-loop region from the hypertensive and the normotensive (20 cases, each) was amplified using 3 pairs of overlapping primers and followed by sequencing. We reconstructed the Neighbor-Joining tree and analyzed the mtDNA variations in the D-loop region. The results exhibited that one clustering branch harbored some hypertensive, who had significantly higher frequency and density of mtDNA variations (both P<0.01), especially the polymorphisms of np152T->C, np182C->T, np189A->G, np247G->A, np16187C->T, np16189T->C, np16264C->T, np16270C->T and np16311T->C. This study suggested that there was an aggregative phenomenon in some hypertensive. The genotypes of np152C, np182T, np247A, np16187T, np16189C, np16264T, np16270T and np16311C may be potential genetic markers for susceptibility to hypertension.     

Non-invasive genotyping of primates

Using DNA amplified from shed or plucked hair follicles it is now possible to genotype individual primates at many nuclear and mitochondrial gene loci. Sequence specific primers and the polymerase chain reaction permit the rapid production of sufficient DNA from a single hair for numerous analyses. The direct sequencing of relatively conservative mtDNA sequences like cytochromeb is proving useful in establishing species and subspecies-level relationships. More variable sequences (e.g. the mtDNA control region or D-loop) are useful at the population and social community levels. Paternity exclusion, pedigree relationships, and community structure can be determined using simple sequence length polymorphisms (SSLPs) of multiple hypervariable nuclear microsatellite or simple sequence repeat (SSR) loci. Studies involving captive and free-ranging chimpanzees, gibbons, and macaques illustrate the resolving power of these new non-invasive molecular genetic genotyping techniques.     

The Genetic Diversity of mtDNA D-loop and the Origin of Chinese Goats

The complete sequences of mitochondrial DNA D-loop of 128 individuals in nine Chinese goat (Capra hircu) breeds were analyzed by DNA sequencing technology. The results show that the length of mtDNA D-loop in Chinese goats is 1 212-1 213 bp. There are 102 polymorphic sites, accounting for 8.42% of 1 212 bp sequence. Ninety-two mtDNA haplotypes were determined. The haplotype diversity and nucleotide diversity are 0.9333-1 .0000 and 0.7062%-1.8265%, respectively. The results indicate that the genetic diversity of Chinese goats is very abundant. The NJ tree indicates that Chinese goats have two types of maternal origins from lineage A and lineage B. The possibility of lineage B originating from China is also discussed.     

Paternal inheritance of mitochondrial DNA in the sheep (Ovine aries)

Paternal inheritance of mitochondria DNA in sheep was discovered by examination of 152 sheep from 38 hybrid families for mtDNA D-loop polymorphisms using PCR-RFLP, amplification of repeated sequence somain, and PCR-SSCP of the D-loop 5' end region of a 253 bp fragment. Our findings have provided the first evidence of paternal inheritance of mtDNA in sheep and possible mechanisms of paternal inheritance were discussed.     

Different mutation patterns of mitochondrial DNA displacement-loop in hepatocellular carcinomas induced by N-nitrosodiethylamine and a choline-deficient l-amino acid-defined diet in rats

Mutations of the mitochondria DNA (mtDNA) displacement loop (D-loop) were investigated to clarify different changes of exogenous and endogenous liver carcinogenesis in rats. We induced hepatocellular carcinomas (HCCs) in rats with N-nitrosodiethylamine (DEN) and a choline-deficient l-amino acid-defined (CDAA) diet. DNAs were extracted from 10 HCCs induced by DEN and 10 HCCs induced by the CDAA diet. To identify mutations in mtDNA D-loop, polymerase chain reaction (PCR)-single strand conformation polymorphism (SSCP) analysis, followed by nucleotide sequencing, was performed. Mutations were detected in 5 out of 10 HCCs (50%) induced by DEN. Four out of 5 mutations were G/C to A/T transitions at positions 15707, 15717, 15930, and 16087, and one T/A to C/G transition at position 15559. By contrast, no mutations were found in 10 HCCs induced by the CDAA diet. These results demonstrated that mutations in mtDNA D-loop occur in rat HCCs induced by DEN but not by the CDAA diet, suggesting that mtDNA D-loop is a target of exogenous liver carcinogenesis in rats.     

Paternal inheritance of mitochondrial DNA in the sheep (Ovine aries)

Paternal inheritance of mitochondria DNA in sheep was discovered by examination of 152 sheep from 38 hybrid families for mtDNA D-loop polymorphisms using PCR-RFLP, amplification of repeated sequence somain, and PCR-SSCP of the D-loop 5′ end region of a 253 bp fragment. Our findings have provided the first evidence of paternal inheritance of mtDNA in sheep and possible mechanisms of paternal inheritance were discussed.     

Paternal inheritance of mitochondrial DNA in the sheep ( Ovine aries )

Paternal inheritance of mitochondria DNA in sheep was discovered by examination of 152 sheep from 38 hybrid families for mtDNA D-loop polymorphisms using PCR-RFLP, amplification of repeated sequence somain, and PCR-SSCP of the D-loop 5′ end region of a 253 bp fragment. Our findings have provided the first evidence of paternal inheritance of mtDNA in sheep and possible mechanisms of paternal inheritance were discussed.     

Mitochondrial DNA lineages of elite Ethiopian athletes

Previous studies have hypothesised that mitochondrial DNA (mtDNA) polymorphisms may influence aerobic performance. The matrilineal inheritance and accumulation of polymorphisms in mtDNA means that mtDNA haplogroups, characterised by key polymorphisms, are often represented at different frequencies in different populations. The present study aimed to compare the mtDNA haplogroup distribution of elite Ethiopian athletes relative to the general Ethiopian population. The haplogroup distribution of 76 endurance athletes (E), members of the Ethiopian national athletics team, was compared to 108 members of the general Ethiopian population (C). DNA was extracted from buccal swabs and haplogroups assigned by sequencing part of the hypervariable sequence (HVS-I), followed by analysis of key coding-region polymorphisms. A high proportion of African 'L' haplogroups was found in athletes and controls (C=53%; E=55%). Haplogroup distribution of endurance runners did not differ from that of C (P=0.63). Elite Ethiopian athletes are not a mitochondrially distinct group relative to the Ethiopian population. It appears that environment and, perhaps, polymorphisms in the nuclear genome are more important determinants of Ethiopian running success than mtDNA polymorphisms.