67 research outputs found

    Human genetic differentiation across the Strait of Gibraltar

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    <p>Abstract</p> <p>Background</p> <p>The Strait of Gibraltar is a crucial area in the settlement history of modern humans because it represents a possible connection between Africa and Europe. So far, genetic data were inconclusive about the fact that this strait constitutes a barrier to gene flow, as previous results were highly variable depending on the genetic locus studied. The present study evaluates the impact of the Gibraltar region in reducing gene flow between populations from North-Western Africa and South-Western Europe, by comparing formally various genetic loci. First, we compute several statistics of population differentiation. Then, we use an original simulation approach in order to infer the most probable evolutionary scenario for the settlement of the area, taking into account the effects of both demography and natural selection at some loci.</p> <p>Results</p> <p>We show that the genetic patterns observed today in the region of the Strait of Gibraltar may reflect an ancient population genetic structure which has not been completely erased by more recent events such as Neolithic migrations. Moreover, the differences observed among the loci (i.e. a strong genetic boundary revealed by the Y-chromosome polymorphism and, at the other extreme, no genetic differentiation revealed by HLA-DRB1 variation) across the strait suggest specific evolutionary histories like sex-mediated migration and natural selection. By considering a model of balancing selection for HLA-DRB1, we here estimate a coefficient of selection of 2.2% for this locus (although weaker in Europe than in Africa), which is in line with what was estimated from synonymous versus non-synonymous substitution rates. Selection at this marker thus appears strong enough to leave a signature not only at the DNA level, but also at the population level where drift and migration processes were certainly relevant.</p> <p>Conclusions</p> <p>Our multi-loci approach using both descriptive analyses and Bayesian inferences lead to better characterize the role of the Strait of Gibraltar in the evolution of modern humans. We show that gene flow across the Strait of Gibraltar occurred at relatively high rates since pre-Neolithic times and that natural selection and sex-bias migrations distorted the demographic signal at some specific loci of our genome.</p

    Arylamine N-Acetyltransferase 2 (NAT2) Genetic Diversity and Traditional Subsistence: A Worldwide Population Survey

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    Arylamine N-acetyltransferase 2 (NAT2) is involved in human physiological responses to a variety of xenobiotic compounds, including common therapeutic drugs and exogenous chemicals present in the diet and the environment. Many questions remain about the evolutionary mechanisms that have led to the high prevalence of slow acetylators in the human species. Evidence from recent surveys of NAT2 gene variation suggests that NAT2 slow-causing variants might have become targets of positive selection as a consequence of the shift in modes of subsistence and lifestyle in human populations in the last 10,000 years. We aimed to test more extensively the hypothesis that slow acetylation prevalence in humans is related to the subsistence strategy adopted by the past populations. To this end, published frequency data on the most relevant genetic variants of NAT2 were collected from 128 population samples (14,679 individuals) representing different subsistence modes and dietary habits, allowing a thorough analysis at both a worldwide and continent scale. A significantly higher prevalence of the slow acetylation phenotype was observed in populations practicing farming (45.4%) and herding (48.2%) as compared to populations mostly relying on hunting and gathering (22.4%) (P = 0.0007). This was closely mirrored by the frequency of the slow 590A variant that was found to occur at a three-fold higher frequency in food producers (25%) as compared to hunter-gatherers (8%). These findings are consistent with the hypothesis that the Neolithic transition to subsistence economies based on agricultural and pastoral resources modified the selective regime affecting the NAT2 acetylation pathway. Furthermore, the vast amount of data collected enabled us to provide a comprehensive and up-to-date description of NAT2 worldwide genetic diversity, thus building up a useful resource of frequency data for further studies interested in epidemiological or anthropological research questions involving NAT2

    A homogenizing process of selection has maintained an \u27ultra-slow\u27 acetylation NAT2 variant in humans

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    N-acetyltransferase 2 (NAT2) is an important enzyme involved in the metabolism of a wide spectrum of naturally occurring xenobiotics, including therapeutic drugs and common environmental carcinogens. Extensive polymorphism in NAT2 gives rise to a wide interindividual variation in acetylation capacity which influences individual susceptibility to various drug-induced adverse reactions and cancers. Striking patterns of geographic differentiation have been described for the main slow acetylation variants of the NAT2 gene, suggesting the action of natural selection at this locus. In the present study, we took advantage of the whole-genome sequence data available from the 1000 Genomes project to investigate the global patterns of population genetic differentiation at NAT2 and determine whether they are atypical compared to the remaining variation of the genome. The non-synonymous substitution c.590G\u3eA (rs1799930) defining the slow NAT2*6 haplotype cluster exhibited an unusually low FST value when compared to the genome average (FST = 0.006, P-value = 0.016). It was pointed out as the most likely target of a homogenizing process of selection promoting the same allelic variant in globally distributed populations. The rs1799930 A allele has been associated with the slowest acetylation capacity in vivo and its substantial correlation with the subsistence strategy adopted by past human populations suggests that it may have conferred a selective advantage in populations shifting from foraging to agricultural and pastoral activities in the Neolithic period. Results of neutrality tests further supported an adaptive evolution of the NAT2 gene through either balancing selection or directional selection acting on multiple standing slow-causing variants

    No Longitudinal Mitochondrial DNA Sequence Changes in HIV-infected Individuals With and Without Lipoatrophy

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    The potential for mitochondrial (mt) DNA mutation accumulation during antiretroviral therapy (ART), and preferential accumulation in patients with lipoatrophy compared with control participants, remains controversial. We sequenced the entire mitochondrial genome, both before ART and after ART exposure, in 29 human immunodeficiency virus (HIV)-infected Swiss HIV Cohort Study participants initiating a first-line thymidine analogue-containing ART regimen. No accumulation of mtDNA mutations or deletions was detected in 13 participants who developed lipoatrophy or in 16 control participants after significant and comparable ART exposure (median duration, 3.3 and 3.7 years, respectively). In HIV-infected persons, the development of lipoatrophy is unlikely to be associated with accumulation of mtDNA mutations detectable in peripheral bloo

    Worldwide distribution of NAT2 diversity: Implications for NAT2 evolutionary history

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    <p>Abstract</p> <p>Background</p> <p>The N-acetyltransferase 2 (<it>NAT2</it>) gene plays a crucial role in the metabolism of many drugs and xenobiotics. As it represents a likely target of population-specific selection pressures, we fully sequenced the <it>NAT2 </it>coding region in 97 Mandenka individuals from Senegal, and compared these sequences to extant data on other African populations. The Mandenka data were further included in a worldwide dataset composed of 41 published population samples (6,727 individuals) from four continental regions that were adequately genotyped for all common <it>NAT2 </it>variants so as to provide further insights into the worldwide haplotype diversity and population structure at <it>NAT2</it>.</p> <p>Results</p> <p>The sequencing analysis of the <it>NAT2 </it>gene in the Mandenka sample revealed twelve polymorphic sites in the coding exon (two of which are newly identified mutations, C345T and C638T), defining 16 haplotypes. High diversity and no molecular signal of departure from neutrality were observed in this West African sample. On the basis of the worldwide genotyping survey dataset, we found a strong genetic structure differentiating East Asians from both Europeans and sub-Saharan Africans. This pattern could result from region- or population-specific selective pressures acting at this locus, as further suggested in the HapMap data by extremely high values of <it>F</it><sub>ST </sub>for a few SNPs positions in the <it>NAT2 </it>coding exon (T341C, C481T and A803G) in comparison to the empirical distribution of <it>F</it><sub>ST </sub>values accross the whole 400-kb region of the <it>NAT </it>gene family.</p> <p>Conclusion</p> <p>Patterns of sequence variation at <it>NAT2 </it>are consistent with selective neutrality in all sub-Saharan African populations investigated, whereas the high level of population differentiation between Europeans and East Asians inferred from SNPs could suggest population-specific selective pressures acting at this locus, probably caused by differences in diet or exposure to other environmental signals.</p

    Contribution of Genetic Background, Traditional Risk Factors, and HIV-Related Factors to Coronary Artery Disease Events in HIV-Positive Persons

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    We show in human immunodeficiency virus-positive persons that the coronary artery disease effect of an unfavorable genetic background is comparable to previous studies in the general population, and comparable in size to traditional risk factors and antiretroviral regimens known to increase cardiovascular ris

    Regards d'une généticienne sur les habitants de l'Islande

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    La manière dont les organismes vivants ont évolué au cours du temps laisse des marques, des signatures, dans leur ADN. Ce sont ces signatures que cherche à découvrir la génétique des populations, puisqu’elles informent sur certains aspects de l’histoire des espèces, et des populations dans ces espèces. Cette discipline scientifique, devenue désormais génomique des populations car elle a bénéficié des développements puissants des techniques de séquençage de l’ADN des vingt dernières années, qui permettent de lire relativement facilement le génome entier d’individus vivants, mais aussi d’individus morts depuis parfois plusieurs millénaires, a fortement contribué à notre connaissance de l’Islande et son peuplement humain

    Les différenciations génétiques des populations humaines révélées par le chromosome Y correspondent étroitement à leurs apparentements linguistiques

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    Dans le génome humain, il y a deux régions qui se distinguent du reste parce qu'elles ne subissent pas de recombinaison, et sont héritées uniquement par un sexe : l'ADN mitochondrial (ADNmt), qui ne recombine pas et est transmis maternellement, et le chromosome Y, transmis paternellement, et qui, dans sa plus grande partie, ne recombine pas non plus. Dans de telles portions du génome, il est possible de retracer directement, de fille en mère pour l'ADNmt, ou de fîls en père, pour le chromosome Y, l'origine et la transmission d'une mutation. L'absence de recombinaison qui caractérise ces régions génomiques les a rendues très attractives pour l'étude de la variabilité génétique humaine. En effet, les modèles de différenciation des populations, qui dérivent des modèles d'évolution de leurs gènes, sont fortement simplifïés en l'absence de recombinaison. Si notre étude confirme, encore une fois, la relation étroite entre histoire génétique et histoire linguistique des populations humaines, elle montre par ailleurs la nécessité des comparaisons entre différents systèmes génétiques pour inférer ou tester des hypothèses précises sur l'histoire du peuplement humain
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