48 resultados para Haplogroups
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Leber hereditary optic neuropathy (LHON) is the most extensively studied mitochondrial disease, with the majority of the cases being caused by one of three primary mitochondrial DNA (mtDNA) mutations. Incomplete disease penetrance and gender bias are two
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Background: It is widely accepted that the ancestors of Native Americans arrived in the New World via Beringia approximately 10 to 30 thousand years ago (kya). However, the arrival time(s), number of expansion events, and migration routes into the Western
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Background: Natural Killer Cells (NK) play an important role in detection and elimination of virus-infected, damaged or cancer cells. NK cell function is guided by expression of Killer Immunoglobulin-like Receptors (KIRs) and contributed to by the cytokine milieu. KIR molecules are grouped on NK cells into stimulatory and inhibitory KIR haplotypes A and B, through which NKs sense and tolerate HLA self-antigens or up-regulate the NK-cytotoxic response to cells with altered HLA self-antigens, damaged by viruses or tumours. We have previously described increased numbers of NK and NK-related subsets in association with sIL-2R cytokine serum levels in BELFAST octo/nonagenarians. We hypothesised that changes in KIR A and B haplotype gene frequencies could explain the increased cytokine profiles and NK compartments previously described in Belfast Elderly Longitudinal Free-living Aging STudy (BELFAST) octo/nonagenarians, who show evidence of ageing well.
Results: In the BELFAST study, 24% of octo/nonagenarians carried the KIR A haplotype and 76% KIR B haplotype with no differences for KIR A haplogroup frequency between male or female subjects (23% v 24%; p=0.88) or for KIR B haplogroup (77% v 76%; p=0.99). Octo/nonagenarian KIR A haplotype carriers showed increased NK numbers and percentage compared to Group B KIR subjects (p=0.003; p=0.016 respectively). There were no KIR A/ B haplogroup-associated changes for related CD57+CD8 (high or low) subsets. Using logistic regression, KIR B carriers were predicted to have higher IL-12 cytokine levels compared to KIR A carriers by about 3% (OR 1.03, confidence limits CI 0.99–1.09; p=0.027) and 14% higher levels for TGF-ß (active), a cytokine with an anti-inflammatory role, (OR 1.14, confidence limits CI 0.99–1.09; p=0.002).
Conclusion: In this observational study, BELFAST octo/nonagenarians carrying KIR A haplotype showed higher NK cell numbers and percentage compared to KIR B carriers. Conversely, KIR B haplotype carriers, with genes encoding for activating KIRs, showed a tendency for higher serum pro-inflammatory cytokines compared to KIR A carriers. While the findings in this study should be considered exploratory they may serve to stimulate debate about the immune signatures of those who appear to age slowly and who represent a model for good quality survivor-hood.© 2013 Rea et al.; licensee BioMed Central Ltd.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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SNaPshot minisequencing reaction is in increasing use because of its fast detection of many polymorphisms in a single assay. In this work we described a highly sensitive single nucleotide polymorphisms (SNPs) typing method with detection of 42 mitochondrial DNA (mtDNA) SNPs in a single PCR and SNaPshot multiplex reaction in order to allow haplogroup classification in Latin American admixture population. We validated the panel typing 160 Brazilian individuals. DNA was extracted from blood spotted on filter paper using Chelex protocol. Forty SNPs were selected targeting haplogroup-specific mutations in Europeans, Africans and Asians (only precursors of Native Americans haplogroups A2, B2, C1, and D1) and two non-coding SNPs were chosen to increase the power of discrimination between individuals (SNPs positions 16,519 and 16,362). It was done using a modified version of a previously published multiplex SNaPshot minisequencing reaction established to resolve European haplogroups, adding SNPs targeting Africans (L0, L1, L2, L3, and L*) and Asians (A, B, C, and D) haplogroups based on SNPs described at PhyloTree.org build 2. PCR primers were designed using PerlPrimer software and checked with the Autodimer program. Thirty-three primer-pairs were used to amplify 42 SNPs. Using this panel, we were able to successfully classify 160 individuals into their correct haplogroups. Complete SNP profiles were obtained from 10. pg of total DNA. We conclude that it is possible to build and genotype more than 40 mtDNA SNPs in a single multiplex PCR and SNaPshot reaction, with sensitivity and reliability, resolving haplogroup classification in admixture populations. © 2011.
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The aim of this research was to assess the role of genetic variation in mitochondrial function and how this relates to migraine pathophysiology. Using our unique Norfolk Island population, a custom in-house next generation sequencing methodology was developed. This data for the first time showed that there is a molecular genetic link between mitochondrial dysfunction and migraine susceptibility. This work has provided the foundation for further studies aimed at utilising the identified markers in improved migraine diagnostic and therapeutic strategies.
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As porções uniparentais do genoma humano, representadas pelo cromossomo Y e pelo DNA mitocondrial (DNAmt), contêm informação genética relacionada às heranças patrilinear e matrilinear, respectivamente. Além da aplicabilidade em genética médica e forense, o DNAmt tem sido utilizado como um importante marcador molecular em estudos sobre evolução para traçar inferências filogenéticas e filogeográficas sobre as populações humanas. A análise de linhagens de DNAmt presentes em diferentes populações mundiais levou à identificação de haplogrupos reunindo diversos haplótipos específicos dos grandes grupos étnicos: africanos, europeus, asiáticos e nativos americanos. A população brasileira é conhecida como uma das mais heterogêneas do mundo, resultado do processo de colonização do país, abrangendo mais de cinco séculos de miscigenação entre povos de diferentes continentes. Este trabalho teve como objetivo estimar a partir da análise do DNA mitocondrial as proporções ancestrais africanas, européias e ameríndias na população do Rio de Janeiro. Para isso foram sequencidas as regiões hipervariáveis HVI e HVII do DNAmt de 109 indivíduos não relacionados geneticamente residentes no Rio de Janeiro. Os haplogrupos foram classificados de acordo com o conjunto de polimorfismos dos haplótipos individuais. Programas estatísticas foram utilizados para a determinação de parâmetros de diversidade genética e comparações populacionais. A diversidade haplotípica foi estimada em 0,9988. Nossos resultados demonstraram na população do Rio de Janeiro percentuais de cerca de 60%, 25% e 15% de ancestralidades maternas africana, ameríndia e européia, respectivamente. Através da análise de distâncias genéticas, evidenciou-se que a população do Rio de Janeiro está mais próxima das populações brasilerias dos estados de São Paulo e Alagoas. Como descrito nos registros históricos, algumas regiões do país tiveram processos de colonização muito específicos que se refletem nas proporções ancestrais maternas e paternas observadas. Em relação ao DNAmt, não se verificou diferença genética significativa entre as populações do Rio de Janeiro e a de Angola, uma população africana. Os resultados obtidos estão em estreita concordância com os registros históricos e outros estudos genéticos acerca da formação da população brasileira
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A chegada dos primeiros habitantes há cerca de 15.000 anos e de colonos portugueses e escravos africanos, desde o século 15, em sucessivas migrações na América do Sul, levaram à formação de populações miscigenadas com raízes consideravelmente diversificadas. É notável a heterogeneidade populacional decorrente dessas migrações e do processo de amalgamento de indígenas a partir dos contatos entre os diferentes grupos étnicos, iniciados com a colonização da América pelos europeus. A despeito da elevada miscigenação, ainda se pode encontrar no Brasil populações que, majoritariamente, mantém a identidade genética dos seus ancestrais mais remotos. O objetivo desse estudo foi caracterizar a ancestralidade da população de Santa Isabel do Rio Negro, Amazonas, com fortes traços fenotípicos ameríndios, e da tribo indígena Terena de Mato Grosso do Sul. Para isto, foram estudados marcadores uniparentais paternos ligados à região não recombinante do cromossomo Y e maternos presentes na região controle do DNA mitocondrial (mtDNA). Em relação à herança paterna, foram genotipados 31 indivíduos de Santa Isabel do Rio Negro, sendo que os Terena já haviam sido estudados sob este aspecto. Quanto ao mtDNA, foram estudados 76 indivíduos de ambos os sexos e 51 Indivíduos do sexo masculino de Santa Isabel do Rio Negro e dos Terena, respectivamente. A análise de marcadores Y-SNPs possibilitou a caracterização de 55% dos cromossomos Y dos indivíduos de Santa Isabel do Rio Negro como pertencentes ao haplogrupo Q1a3a*, característico de ameríndio. Através do mtDNA, foi verificado que o haplogrupo A é o mais frequente nas duas populações, com percentuais de 34% e 42% em Santa Isabel do Rio Negro e na tribo Terena, respectivamente, observando-se no tocante à ancestralidade materna a não ocorrência de diferenciação genética significativa entre as duas populações. Por outro lado, a análise do cromossomo Y revelou a ocorrência de distância genética significativa entre elas, o que pode ser resultante da diferença entre os tamanhos das amostras populacionais ou refletir diferenças entre rotas migratórias dos ameríndios anteriormente à colonização. Os resultados mostram ainda que os genomas mitocondriais autóctones foram melhor preservados, e que novos haplogrupos do cromossomo Y foram introduzidos recentemente na população ameríndia. É, portanto, possível concluir que a população de Santa Isabel do Rio Negro e a tribo indígena Terena apresentam um significativo grau de conservação da ancestralidade ameríndia, apesar do longo histórico de contato com europeus e africanos, os outros povos formadores da população brasileira.
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To study the mitochondrial DNA (mtDNA) polymorphisms in a total of 232 individuals from five ethnic populations (Daur, n=45; Ewenki, n=47; Korean, n=48; Mongolian, n=48; Oroqen, n=44) in northern China, we analyzed the control region sequences and typed for a number of characteristic mutations in coding regions (especially the region 14576-16047), by direct sequencing or restriction-fragment-length-polymorphism (RFLP) analysis. With the exception of 14 individuals belonging to the European-specific haplogroups R2, H, J, and T, the mtDNAs considered could be assigned into the East Asian-specific haplogroups described recently. The polymorphisms in cytochrome b sequence were found to be very informative for defining or supporting the haplogroups status of East Asian mtDNAs in addition to the reported regions 10171-10659 and 14055-14590 in our previous study. The haplogroup distribution frequencies varied in the five ethnic populations, but in general they all harbored a large amount of north-prevalent haplogroups, such as D, G, C, and Z, and thus were in agreement with their ethnohistory of northern origin. The two populations (Ewenki and Oroqen) with small population census also show concordant features in their matrilineal genetic structures, with lower genetic diversities observed.
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The now-emerging mitochondrial DNA ( mtDNA) population genomics provides information for reconstructing a well-resolved mtDNA phylogeny and for discerning the phylogenetic status of the subcontinentally specific haplogroups. Although several major East Asian mtDNA haplogroups have been identified in studies elsewhere, some of the most basal haplogroups, as well as numerous minor subhaplogroups, were not yet determined or fully characterized. To fill the lacunae, we selected 48 mtDNAs from >2,000 samples across China for complete sequencing that cover virtually all ( sub) haplogroups discernible to date in East Asia. This East Asian mtDNA phylogeny can henceforth serve as a solid basis for phylogeographic analyses of mtDNAs, as well as for studies of mitochondrial diseases in East and Southeast Asia.
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Due to its specific characteristics, such as maternal inheritance and absence of recombination, each mtDNA belongs to certain monophyletic clade in the rooted mtDNA tree (haplogroup) according to the mutations it harbors. Rare mutation (excluding parallel mutation) occurring at multiple times in different haplogroups could thus be a potential reading error according to the mtDNA phylogeny. This experience has been widely used in double-checking the credibility of the rare mutations in human mtDNA sequences. However, no test has been performed so far for the feasibility of applying this strategy to the rare insertion/deletion (indel) events in mtDNA sequences. In this study, we attempted to relate the rare indels in mtDNAs to their haplogroup status in a total of 2352 individuals from 50 populations in China. Our results show that the insertion of A at position 16259 is restricted to a subclade of haplogroup C and can be verified. The other indel polymorphisms, which occur in the repeat of the deleted or inserted nucleotide(s), may not be distinguished from phantom mutations from a phylogenetic point of view. Independently and multiply sequencing the fragment with the indel is the best and the most reliable way for confirmation.
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Animal domestication was a major step forward in human prehistory, contributing to the emergence of more complex societies. At the time of the Neolithic transition, zebu cattle (Bos indicus) were probably the most abundant and important domestic livestock species in Southern Asia. Although archaeological evidence points toward the domestication of zebu cattle within the Indian subcontinent, the exact geographic origins and phylogenetic history of zebu cattle remains uncertain. Here, we report evidence from 844 zebu mitochondrial DNA (mtDNA) sequences surveyed from 19 Asiatic countries comprising 8 regional groups, which identify 2 distinct mitochondrial haplogroups, termed I1 and I2. The marked increase in nucleotide diversity (P < 0.001) for both the I1 and I2 haplogroups within the northern part of the Indian subcontinent is consistent with an origin for all domestic zebu in this area. For haplogroup I1, genetic diversity was highest within the Indus Valley among the three hypothesized domestication centers (Indus Valley, Ganges, and South India). These data support the Indus Valley as the most likely center of origin for the I1 haplogroup and a primary center of zebu domestication. However, for the I2 haplogroup, a complex pattern of diversity is detected, preventing the unambiguous pinpointing of the exact place of origin for this zebu maternal lineage. Our findings are discussed with respect to the archaeological record for zebu domestication within the Indian subcontinent.