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1. Decay of linkage disequilibrium within genes across HGDP-CEPH human samples: most population isolates do not show increased LD

Author

Navarro Arcadi, Rosa Araceli, Gardner Michelle, Ferrer-Admetlla Anna, Moreno-Estrada Andrés, Casals Ferran, Morcillo-Suarez Carlos, Laayouni Hafid, Bosch Elena, Comas David, Graffelman Jan, Calafell Francesc, and Bertranpetit Jaume

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background It is well known that the pattern of linkage disequilibrium varies between human populations, with remarkable geographical stratification. Indirect association studies routinely exploit linkage disequilibrium around genes, particularly in isolated populations where it is assumed to be higher. Here, we explore both the amount and the decay of linkage disequilibrium with physical distance along 211 gene regions, most of them related to complex diseases, across 39 HGDP-CEPH population samples, focusing particularly on the populations defined as isolates. Within each gene region and population we use r2 between all possible single nucleotide polymorphism (SNP) pairs as a measure of linkage disequilibrium and focus on the proportion of SNP pairs with r2 greater than 0.8. Results Although the average r2 was found to be significantly different both between and within continental regions, a much higher proportion of r2 variance could be attributed to differences between continental regions (2.8% vs. 0.5%, respectively). Similarly, while the proportion of SNP pairs with r2 > 0.8 was significantly different across continents for all distance classes, it was generally much more homogenous within continents, except in the case of Africa and the Americas. The only isolated populations with consistently higher LD in all distance classes with respect to their continent are the Kalash (Central South Asia) and the Surui (America). Moreover, isolated populations showed only slightly higher proportions of SNP pairs with r2 > 0.8 per gene region than non-isolated populations in the same continent. Thus, the number of SNPs in isolated populations that need to be genotyped may be only slightly less than in non-isolates. Conclusion The "isolated population" label by itself does not guarantee a greater genotyping efficiency in association studies, and properties other than increased linkage disequilibrium may make these populations interesting in genetic epidemiology.

Published
2009
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2. On Detecting Incomplete Soft or Hard Selective Sweeps Using Haplotype Structure

Author

Ferrer-Admetlla, Anna, Liang, Mason, Korneliussen, Thorfinn, and Nielsen, Rasmus

Subjects
Biological Sciences, Genetics, Biotechnology, Human Genome, Africa, Biostatistics, Black People, Computer Simulation, Evolution, Molecular, Gene Frequency, Genetics, Population, HapMap Project, Haplotypes, Humans, Lipid Metabolism, Models, Genetic, Mutation, Polymorphism, Single Nucleotide, Recombination, Genetic, Selection, Genetic, hard sweeps, soft sweeps, SFS-based methods, haplotype-based methods, recombination rate, demography, cholesterol, Biochemistry and Cell Biology, Evolutionary Biology, Biochemistry and cell biology, Evolutionary biology
Abstract

We present a new haplotype-based statistic (nSL) for detecting both soft and hard sweeps in population genomic data from a single population. We compare our new method with classic single-population haplotype and site frequency spectrum (SFS)-based methods and show that it is more robust, particularly to recombination rate variation. However, all statistics show some sensitivity to the assumptions of the demographic model. Additionally, we show that nSL has at least as much power as other methods under a number of different selection scenarios, most notably in the cases of sweeps from standing variation and incomplete sweeps. This conclusion holds up under a variety of demographic models. In many aspects, our new method is similar to the iHS statistic; however, it is generally more robust and does not require a genetic map. To illustrate the utility of our new method, we apply it to HapMap3 data and show that in the Yoruban population, there is strong evidence of selection on genes relating to lipid metabolism. This observation could be related to the known differences in cholesterol levels, and lipid metabolism more generally, between African Americans and other populations. We propose that the underlying causes for the selection on these genes are pleiotropic effects relating to blood parasites rather than their role in lipid metabolism.

Published
2014

3. A Scan for Human-Specific Relaxation of Negative Selection Reveals Unexpected Polymorphism in Proteasome Genes

Author

Somel, Mehmet, Sayres, Melissa A Wilson, Jordan, Gregory, Huerta-Sanchez, Emilia, Fumagalli, Matteo, Ferrer-Admetlla, Anna, and Nielsen, Rasmus

Subjects
Biological Sciences, Genetics, Biotechnology, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Animals, Evolution, Molecular, Gene Frequency, Genome, Human, Humans, Pan troglodytes, Polymorphism, Genetic, Polymorphism, Single Nucleotide, Proteasome Endopeptidase Complex, Selection, Genetic, relaxation of constraints, human evolution, negative selection, olfactory transduction, proteasome, Biochemistry and Cell Biology, Evolutionary Biology, Biochemistry and cell biology, Evolutionary biology
Abstract

Environmental or genomic changes during evolution can relax negative selection pressure on specific loci, permitting high frequency polymorphisms at previously conserved sites. Here, we jointly analyze population genomic and comparative genomic data to search for functional processes showing relaxed negative selection specifically in the human lineage, whereas remaining evolutionarily conserved in other mammals. Consistent with previous studies, we find that olfactory receptor genes display such a signature of relaxation in humans. Intriguingly, proteasome genes also show a prominent signal of human-specific relaxation: multiple proteasome subunits, including four members of the catalytic core particle, contain high frequency nonsynonymous polymorphisms at sites conserved across mammals. Chimpanzee proteasome genes do not display a similar trend. Human proteasome genes also bear no evidence of recent positive or balancing selection. These results suggest human-specific relaxation of negative selection in proteasome subunits; the exact biological causes, however, remain unknown.

Published
2013

4. Signatures of environmental genetic adaptation pinpoint pathogens as the main selective pressure through human evolution.

Author

Fumagalli, Matteo, Sironi, Manuela, Pozzoli, Uberto, Ferrer-Admetlla, Anna, Pattini, Linda, and Nielsen, Rasmus

Subjects
Humans, Environment, Adaptation, Biological, Acclimatization, Gene Frequency, Genetic Drift, Genotype, Polymorphism, Single Nucleotide, Models, Genetic, Metabolic Networks and Pathways, Host-Pathogen Interactions, Genetic Variation, Genome-Wide Association Study, Selection, Genetic, Biological Evolution, Gene-Environment Interaction, Human Genome, Autoimmune Disease, Genetics, Nutrition, Clinical Research, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Developmental Biology
Abstract

Previous genome-wide scans of positive natural selection in humans have identified a number of non-neutrally evolving genes that play important roles in skin pigmentation, metabolism, or immune function. Recent studies have also shown that a genome-wide pattern of local adaptation can be detected by identifying correlations between patterns of allele frequencies and environmental variables. Despite these observations, the degree to which natural selection is primarily driven by adaptation to local environments, and the role of pathogens or other ecological factors as selective agents, is still under debate. To address this issue, we correlated the spatial allele frequency distribution of a large sample of SNPs from 55 distinct human populations to a set of environmental factors that describe local geographical features such as climate, diet regimes, and pathogen loads. In concordance with previous studies, we detected a significant enrichment of genic SNPs, and particularly non-synonymous SNPs associated with local adaptation. Furthermore, we show that the diversity of the local pathogenic environment is the predominant driver of local adaptation, and that climate, at least as measured here, only plays a relatively minor role. While background demography by far makes the strongest contribution in explaining the genetic variance among populations, we detected about 100 genes which show an unexpectedly strong correlation between allele frequencies and pathogenic environment, after correcting for demography. Conversely, for diet regimes and climatic conditions, no genes show a similar correlation between the environmental factor and allele frequencies. This result is validated using low-coverage sequencing data for multiple populations. Among the loci targeted by pathogen-driven selection, we found an enrichment of genes associated to autoimmune diseases, such as celiac disease, type 1 diabetes, and multiples sclerosis, which lends credence to the hypothesis that some susceptibility alleles for autoimmune diseases may be maintained in human population due to past selective processes.

Published
2011

7. A Natural History of FUT2 Polymorphism in Humans

Author

Ferrer-Admetlla, Anna, Sikora, Martin, Laayouni, Hafid, Esteve, Anna, Roubinet, Francis, Blancher, Antoine, Calafell, Francesc, Bertranpetit, Jaume, and Casals, Ferran

Published
2009

11. An Approximate Markov Model for the Wright–Fisher Diffusion and Its Application to Time Series Data

Author

Daniel Wegmann, Anna Ferrer-Admetlla, Jeffrey D. Jensen, and Christoph Leuenberger

Subjects
0301 basic medicine, Population, diffusion approximation, Inference, discrete Markov model, Biology, Investigations, Markov model, Bayesian inference, Evolution, Molecular, 03 medical and health sciences, Drug Resistance, Viral, Genetics, Time series, Selection, Genetic, Hidden Markov model, education, hidden Markov model, Selection (genetic algorithm), education.field_of_study, Markov chain, Models, Genetic, time-series data, Orthomyxoviridae, Markov Chains, Wright-Fisher model, 030104 developmental biology, Algorithm
Abstract

The joint and accurate inference of selection and demography from genetic data is considered a particularly challenging question in population genetics, since both process may lead to very similar patterns of genetic diversity. However, additional information for disentangling these effects may be obtained by observing changes in allele frequencies over multiple time points. Such data are common in experimental evolution studies, as well as in the comparison of ancient and contemporary samples. Leveraging this information, however, has been computationally challenging, particularly when considering multilocus data sets. To overcome these issues, we introduce a novel, discrete approximation for diffusion processes, termed mean transition time approximation, which preserves the long-term behavior of the underlying continuous diffusion process. We then derive this approximation for the particular case of inferring selection and demography from time series data under the classic Wright–Fisher model and demonstrate that our approximation is well suited to describe allele trajectories through time, even when only a few states are used. We then develop a Bayesian inference approach to jointly infer the population size and locus-specific selection coefficients with high accuracy and further extend this model to also infer the rates of sequencing errors and mutations. We finally apply our approach to recent experimental data on the evolution of drug resistance in influenza virus, identifying likely targets of selection and finding evidence for much larger viral population sizes than previously reported.

Published
2016

12. Evolutionary analysis of genes of two pathways involved in placental malaria infection

Author

Martin Sikora, Anna Ferrer-Admetlla, Alfredo Mayor, Ferran Casals, and Jaume Bertranpetit

Subjects
Adult, Candidate gene, Erythrocytes, Placenta Diseases, Candidate gene analysis, Population, Black People, Biology, Polymorphism, Single Nucleotide, White People, Host-Parasite Interactions, Evolution, Molecular, Asian People, Gene Frequency, Pregnancy, Molecular evolution, Genetics, medicine, Animals, Humans, Pentosyltransferases, Malària -- Aspectes genètics, Hyaluronic Acid, Malaria, Falciparum, Selection, Genetic, Functional pathways, education, Allele frequency, Alleles, Genetics (clinical), education.field_of_study, Polymorphism, Genetic, Genètica de poblacions, Natural selection, Chondroitin Sulfates, Haplotype, Infant, Newborn, medicine.disease, Positive selection, Minor allele frequency, Haplotypes, Pregnancy Complications, Parasitic, Female, Malaria
Abstract

Placental malaria is a special form of malaria that causes up to 200,000 maternal and infant deaths every year. Previous studies show that two receptor molecules, hyaluronic acid and chondroitin sulphate A, are mediating the adhesion of parasite-infected erythrocytes in the placenta of patients, which is believed to be a key step in the pathogenesis of the disease. In this study, we aimed at identifying sites of malaria-induced adaptation by scanning for signatures of natural selection in 24 genes in the complete biosynthesis pathway of these two receptor molecules. We analyzed a total of 24 Mb of publicly available polymorphism data from the International HapMap project for three human populations with European, Asian and African ancestry, with the African population from a region of presently and historically high malaria prevalence. Using the methods based on allele frequency distributions, genetic differentiation between populations, and on long-range haplotype structure, we found only limited evidence for malaria-induced genetic adaptation in this set of genes in the African population; however, we identified one candidate gene with clear evidence of selection in the Asian population. Although historical exposure to malaria in this population cannot be ruled out, we speculate that it might be caused by other pathogens, as there is growing evidence that these molecules are important receptors in a variety of host-pathogen interactions. We propose to use the present methods in a systematic way to help identify candidate regions under positive selection as a consequence of malaria.

Published
2008

13. An Approximate Markov Model for the Wright-Fisher Diffusion

Author

Daniel Wegmann, Anna Ferrer-Admetlla, Jeffrey D. Jensen, and Christoph Leuenberger

Subjects
0106 biological sciences, 0303 health sciences, education.field_of_study, Population size, Population, Inference, Population genetics, Biology, Bayesian inference, Bioinformatics, Markov model, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Quantitative Biology::Populations and Evolution, Time series, education, Algorithm, Selection (genetic algorithm), 030304 developmental biology
Abstract

The joint and accurate inference of selection and demography from genetic data is considered a particularly challenging question in population genetics, since both process may lead to very similar patterns of genetic diversity. However, additional information for disentangling these effects may be obtained by observing changes in allele frequencies over multiple time points. Such data is common in experimental evolution studies, as well as in the comparison of ancient and contemporary samples. Leveraging this information, however, has been computationally challenging, particularly when considering multi-locus data sets. To overcome these issues, we introduce a novel, discrete approximation for diffusion processes, termed \textit{mean transition time approximation}, which preserves the long-term behavior of the underlying continuous diffusion process. We then derive this approximation for the particular case of inferring selection and demography from time series data under the classic Wright-Fisher model and demonstrate that our approximation is well suited to describe allele trajectories through time, even when only a few states are used. We then develop a Bayesian inference approach to jointly infer the population size and locus-specific selection coefficients with high accuracy, and further extend this model to also infer the rates of sequencing errors and mutations. We finally apply our approach to recent experimental data on the evolution of drug resistance in Influenza virus, identifying likely targets of selection and finding evidence for much larger viral population sizes than previously reported.

Published
2015

14. An approximate Markov model for the wright-fisher diffusion and its application to time series data

Author

Ferrer-Admetlla, Anna, Leuenberger, Christoph, Jensen, Jeffrey D., Wegmann, Daniel, Ferrer-Admetlla, Anna, Leuenberger, Christoph, Jensen, Jeffrey D., and Wegmann, Daniel

Abstract

The joint and accurate inference of selection and demography from genetic data is considered a particularly challenging question in population genetics, since both process may lead to very similar patterns of genetic diversity. However, additional information for disentangling these effects may be obtained by observing changes in allele frequencies over multiple time points. Such data is common in experimental evolution studies, as well as in the comparison of ancient and contemporary samples. Leveraging this information, however, has been computationally challenging, particularly when considering multi-locus data sets. To overcome these issues, we introduce a novel, discrete approximation for diffusion processes, termed mean transition time approximation, which preserves the long-term behavior of the underlying continuous diffusion process. We then derive this approximation for the particular case of inferring selection and demography from time series data under the classic Wright- Fisher model and demonstrate that our approximation is well suited to describe allele trajectories through time, even when only a few states are used. We then develop a Bayesian inference approach to jointly infer the population size and locus-specific selection coefficients with high accuracy, and further extend this model to also infer the rates of sequencing errors and mutations. We finally apply our approach to recent experimental data on the evolution of drug resistance in Influenza virus, identifying likely targets of selection and finding evidence for much larger viral population sizes than previously reported.

Published
2016

15. On detecting incomplete soft or hard selective sweeps using haplotype structure

Author

Anna Ferrer-Admetlla, Mason Liang, Thorfinn Sand Korneliussen, and Rasmus Nielsen

Subjects
demography, hard sweeps, Gene Frequency, Models, Methods, International HapMap Project, Statistic, African Continental Ancestry Group, Genetics, Recombination, Genetic, recombination rate, education.field_of_study, Single Nucleotide, Variation (linguistics), Mutation (genetic algorithm), Evolution, Population, Black People, HapMap Project, Biology, Biostatistics, soft sweeps, Polymorphism, Single Nucleotide, Evolution, Molecular, Genetic, Humans, Computer Simulation, Selection, Genetic, Polymorphism, education, Molecular Biology, Allele frequency, Selection, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), Models, Genetic, Haplotype, SFS-based methods, cholesterol, Molecular, haplotype-based methods, Lipid Metabolism, Recombination, Genetics, Population, Haplotypes, Evolutionary biology, Africa, Mutation
Abstract

We present a new haplotype-based statistic (nS(L)) for detecting both soft and hard sweeps in population genomic data from a single population. We compare our new method with classic single-population haplotype and site frequency spectrum (SFS)-based methods and show that it is more robust, particularly to recombination rate variation. However, all statistics show some sensitivity to the assumptions of the demographic model. Additionally, we show that nS(L) has at least as much power as other methods under a number of different selection scenarios, most notably in the cases of sweeps from standing variation and incomplete sweeps. This conclusion holds up under a variety of demographic models. In many aspects, our new method is similar to the iHS statistic; however, it is generally more robust and does not require a genetic map. To illustrate the utility of our new method, we apply it to HapMap3 data and show that in the Yoruban population, there is strong evidence of selection on genes relating to lipid metabolism. This observation could be related to the known differences in cholesterol levels, and lipid metabolism more generally, between African Americans and other populations. We propose that the underlying causes for the selection on these genes are pleiotropic effects relating to blood parasites rather than their role in lipid metabolism.

Published
2014

17. A scan for human-specific relaxation of negative selection reveals unexpected polymorphism in proteasome genes

Author

Anna Ferrer-Admetlla, Matteo Fumagalli, Gregory E. Jordan, Emilia Huerta-Sanchez, Mehmet Somel, Rasmus Nielsen, and Melissa A. Wilson Sayres

Subjects
Nonsynonymous substitution, relaxation of constraints, Balancing selection, Genome, Negative selection, 0302 clinical medicine, Gene Frequency, Genetics, 0303 health sciences, education.field_of_study, negative selection, Single Nucleotide, Human, Biotechnology, Proteasome Endopeptidase Complex, Pan troglodytes, Evolution, 1.1 Normal biological development and functioning, Population, Biology, Polymorphism, Single Nucleotide, Evolution, Molecular, 03 medical and health sciences, human evolution, Genetic, Animals, Humans, Selection, Genetic, Polymorphism, education, Molecular Biology, Gene, Selection, Ecology, Evolution, Behavior and Systematics, Discoveries, 030304 developmental biology, Evolutionary Biology, Polymorphism, Genetic, Genome, Human, Human Genome, Molecular, proteasome, Proteasome, olfactory transduction, Human genome, Generic health relevance, Biochemistry and Cell Biology, 030217 neurology & neurosurgery
Abstract

Environmental or genomic changes during evolution can relax negative selection pressure on specific loci, permitting high frequency polymorphisms at previously conserved sites. Here, we jointly analyze population genomic and comparative genomic data to search for functional processes showing relaxed negative selection specifically in the human lineage, whereas remaining evolutionarily conserved in other mammals. Consistent with previous studies, we find that olfactory receptor genes display such a signature of relaxation in humans. Intriguingly, proteasome genes also show a prominent signal of human-specific relaxation: multiple proteasome subunits, including four members of the catalytic core particle, contain high frequency nonsynonymous polymorphisms at sites conserved across mammals. Chimpanzee proteasome genes do not display a similar trend. Human proteasome genes also bear no evidence of recent positive or balancing selection. These results suggest human-specific relaxation of negative selection in proteasome subunits; the exact biological causes, however, remain unknown.

Published
2013

19. Signatures of environmental genetic adaptation pinpoint pathogens as the main selective pressure through human evolution

Author

Matteo, Fumagalli, Manuela, Sironi, Uberto, Pozzoli, Anna, Ferrer-Admetlla, Anna, Ferrer-Admettla, Linda, Pattini, Rasmus, Nielsen, and Akey, Joshua M

Subjects
0106 biological sciences, Cancer Research, Acclimatization, Adaptation, Biological, Population genetics, Balancing selection, 01 natural sciences, Gene Frequency, Models, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Aetiology, Genetics (clinical), Genetics, 0303 health sciences, education.field_of_study, Natural selection, Single Nucleotide, Biological Evolution, 3. Good health, Host-Pathogen Interactions, Metabolic Networks and Pathways, lcsh:QH426-470, Genotype, Population, Biology, Environment, Autoimmune Disease, 010603 evolutionary biology, Polymorphism, Single Nucleotide, 03 medical and health sciences, Genetic, Genetic drift, Clinical Research, Humans, Adaptation, Polymorphism, Allele, Selection, Genetic, education, Selection, Molecular Biology, Allele frequency, Ecology, Evolution, Behavior and Systematics, Nutrition, 030304 developmental biology, Local adaptation, Models, Genetic, Human Genome, Genetic Drift, Genetic Variation, Biological, Climate Action, lcsh:Genetics, Gene-Environment Interaction, Developmental Biology, Genome-Wide Association Study
Abstract

Previous genome-wide scans of positive natural selection in humans have identified a number of non-neutrally evolving genes that play important roles in skin pigmentation, metabolism, or immune function. Recent studies have also shown that a genome-wide pattern of local adaptation can be detected by identifying correlations between patterns of allele frequencies and environmental variables. Despite these observations, the degree to which natural selection is primarily driven by adaptation to local environments, and the role of pathogens or other ecological factors as selective agents, is still under debate. To address this issue, we correlated the spatial allele frequency distribution of a large sample of SNPs from 55 distinct human populations to a set of environmental factors that describe local geographical features such as climate, diet regimes, and pathogen loads. In concordance with previous studies, we detected a significant enrichment of genic SNPs, and particularly non-synonymous SNPs associated with local adaptation. Furthermore, we show that the diversity of the local pathogenic environment is the predominant driver of local adaptation, and that climate, at least as measured here, only plays a relatively minor role. While background demography by far makes the strongest contribution in explaining the genetic variance among populations, we detected about 100 genes which show an unexpectedly strong correlation between allele frequencies and pathogenic environment, after correcting for demography. Conversely, for diet regimes and climatic conditions, no genes show a similar correlation between the environmental factor and allele frequencies. This result is validated using low-coverage sequencing data for multiple populations. Among the loci targeted by pathogen-driven selection, we found an enrichment of genes associated to autoimmune diseases, such as celiac disease, type 1 diabetes, and multiples sclerosis, which lends credence to the hypothesis that some susceptibility alleles for autoimmune diseases may be maintained in human population due to past selective processes.

Published
2011

21. Influenza virus drug resistance:a time-sampled population genetics perspective

Author

Foll, Matthieu, Poh, Yu-Ping, Renzette, Nicholas, Ferrer-Admetlla, Anna, Bank, Claudia, Shim, Hyunjin, Malaspinas, Anna Sapfo, Ewing, Gregory, Liu, Ping, Wegmann, Daniel, Caffrey, Daniel R., Zeldovich, Konstantin B., Bolon, Daniel N., Wang, Jennifer P., Kowalik, Timothy F., Schiffer, Celia A., Finberg, Robert W., Jensen, Jeffrey D., Foll, Matthieu, Poh, Yu-Ping, Renzette, Nicholas, Ferrer-Admetlla, Anna, Bank, Claudia, Shim, Hyunjin, Malaspinas, Anna Sapfo, Ewing, Gregory, Liu, Ping, Wegmann, Daniel, Caffrey, Daniel R., Zeldovich, Konstantin B., Bolon, Daniel N., Wang, Jennifer P., Kowalik, Timothy F., Schiffer, Celia A., Finberg, Robert W., and Jensen, Jeffrey D.

Published
2014

22. Influenza virus drug resistance: A time-sampled population genetics perspective

Author

Foll, Matthieu, Poh, Yu-Ping, Renzette, Nicholas, Ferrer-Admetlla, Anna, Bank, Claudia, Shim, Hyunjin, Malaspinas, Anna-Sapfo, Ewing, Gregory, Liu, Ping, Wegmann, Daniel, Caffrey, Daniel R., Zeldovich, Konstantin B., Bolon, Daniel N., Wang, Jennifer P., Kowalik, Timothy F., Schiffer, Celia A., Finberg, Robert W., Jensen, Jeffrey D., Foll, Matthieu, Poh, Yu-Ping, Renzette, Nicholas, Ferrer-Admetlla, Anna, Bank, Claudia, Shim, Hyunjin, Malaspinas, Anna-Sapfo, Ewing, Gregory, Liu, Ping, Wegmann, Daniel, Caffrey, Daniel R., Zeldovich, Konstantin B., Bolon, Daniel N., Wang, Jennifer P., Kowalik, Timothy F., Schiffer, Celia A., Finberg, Robert W., and Jensen, Jeffrey D.

Abstract

The challenge of distinguishing genetic drift from selection remains a central focus of population genetics. Time-sampled data may provide a powerful tool for distinguishing these processes, and we here propose approximate Bayesian, maximum likelihood, and analytical methods for the inference of demography and selection from time course data. Utilizing these novel statistical and computational tools, we evaluate whole-genome datasets of an influenza A H1N1 strain in the presence and absence of oseltamivir (an inhibitor of neuraminidase) collected at thirteen time points. Results reveal a striking consistency amongst the three estimation procedures developed, showing strongly increased selection pressure in the presence of drug treatment. Importantly, these approaches re-identify the known oseltamivir resistance site, successfully validating the approaches used. Enticingly, a number of previously unknown variants have also been identified as being positively selected. Results are interpreted in the light of Fisher's Geometric Model, allowing for a quantification of the increased distance to optimum exerted by the presence of drug, and theoretical predictions regarding the distribution of beneficial fitness effects of contending mutations are empirically tested. Further, given the fit to expectations of the Geometric Model, results suggest the ability to predict certain aspects of viral evolution in response to changing host environments and novel selective pressures.

Published
2014

23. A natural history of FUT2 polymorphism in humans

Author

Francis Roubinet, Anna Esteve, Hafid Laayouni, Anna Ferrer-Admetlla, Ferran Casals, Antoine Blancher, Martin Sikora, Francesc Calafell, and Jaume Bertranpetit

Subjects
FUT2, Population, Locus (genetics), Biology, Balancing selection, Polymorphism, Single Nucleotide, Gene Frequency, ABO blood group system, Genetics, Humans, Secretor phenotype, education, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Nonsecretor phenotype, Phylogeny, education.field_of_study, Natural selection, Base Sequence, Geography, Nucleotides, Point mutation, Fucosyltransferases, Phenotype, Genetics, Population, Haplotypes, Global diversity, Genealogy and Heraldry
Abstract

11 páginas, 2 figuras, 3 tablas., Because pathogens are powerful selective agents, host-cell surface molecules used by pathogens as identification signals can reveal the signature of selection. Most of them are oligosaccharides, synthesized by glycosyltransferases. One known example is balancing selection shaping ABO evolution as a consequence of both, A and B antigens being recognized as receptors by some pathogens, and anti-A and/or anti-B natural antibodies produced by hosts conferring protection against the numerous infectious agents expressing A and B motifs. These antigens can also be found in tissues other than blood if there is activity of another enzyme, FUT2, a fucosyltransferase responsible for ABO biosynthesis in body fluids. Homozygotes for null variants at this locus present the nonsecretor phenotype (se), because they cannot express ABO antigens in secretions. Multiple independent mutations have been shown to be responsible for the nonsecretor phenotype, which is coexisting with the secretor phenotype in most populations. In this study, we have resequenced the coding region of FUT2 in 732 individuals from 39 worldwide human populations. We report a complex pattern of natural selection acting on the gene. Although frequencies of secretor and nonsecretor phenotypes are similar in different populations, the point mutations at the base of the phenotypes are different, with some variants showing a long history of balancing selection among Eurasian and African populations, and one recent variant showing a fast spread in East Asia, likely due to positive selection. Thus, a convergent phenotype composition has been achieved through different mutations with different evolutionary histories., This research was funded by grants BFU2005-00243 and SAF-2007-63171 awarded by Ministerio de Educación y Ciencia (Spain) and by the Direcció General de Recerca of Generalitat de Catalunya (Grup de Recerca Consolidat 2005SGR/00608). Funds were also from the Etablissement Francxais du Sang (EFS) Centre Atlantique, and fromthe Ministère Francxais de la Recherche (EA3034). All the sequencing was done at the Genomic Service, Universitat Pompeu Fabra; we thank Stéphanie Plaza and Roger Anglada for their help. Computational analysis was helped by the National Institute for Bioinformatics (www.inab.org), and SNP genotyping services were provided by the Spanish ‘‘Centro Nacional de Genotipado’’ (CEGEN; www.cegen.org); both are platforms of Genoma Espan˜a. A.F.-A. is supported by a PhDfellowship from UPF and M.S. from the Programa de becas FPU del Ministerio de Educación y Ciencia, Spain (AP2005-3982).

Published
2009

24. A variant in the gene FUT9 is associated with susceptibility to placental malaria infection

Author

Jaume Bertranpetit, Ferran Casals, Alfredo Mayor, Inacio Mandomando, Azucena Bardají, Clara Menéndez, Anna Ferrer-Admetlla, Betuel Sigaúque, Pedro L. Alonso, Hafid Laayouni, Martin Sikora, and Universitat Pompeu Fabra

Subjects
Adult, Candidate gene, Placenta Diseases, Adolescent, Genotype, Molecular Sequence Data, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, Young Adult, Pregnancy, parasitic diseases, medicine, Genetic predisposition, Genetics, SNP, Humans, Dones embarassades -- Moçambic, Malària -- Aspectes genètics, Molecular Biology, Genetics (clinical), Mozambique, Base Sequence, Haplotype, Genetic Variation, General Medicine, Odds ratio, medicine.disease, Fucosyltransferases, Malaria, Case-Control Studies, Pregnancy Complications, Parasitic, Immunology, Female, Disease Susceptibility, Candidate Disease Gene
Abstract

9 páginas, 3 figuras, 3 tablas.-- et al., Malaria in pregnancy forms a substantial part of the worldwide burden of malaria, with an estimated annual death toll of up to 200 000 infants, as well as increased maternal morbidity and mortality. Studies of genetic susceptibility to malaria have so far focused on infant malaria, with only a few studies investigating the genetic basis of placental malaria, focusing only on a limited number of candidate genes. The aim of this study therefore was to identify novel host genetic factors involved in placental malaria infection. To this end we carried out a nested case–control study on 180 Mozambican pregnant women with placental malaria infection, and 180 controls within an intervention trial of malaria prevention. We genotyped 880 SNPs in a set of 64 functionally related genes involved in glycosylation and innate immunity. A single nucleotide polymorphism (SNP) located in the gene FUT9, rs3811070, was significantly associated with placental malaria infection (odds ratio = 2.31, permutation P-value=0.028). Haplotypic analysis revealed a similarly strong association of a common haplotype of four SNPs including rs3811070. FUT9 codes for a fucosyl-transferase that is catalyzing the last step in the biosynthesis of the Lewis-x antigen, which forms part of the Lewis blood group-related antigens. These results therefore suggest an involvement of this antigen in the pathogenesis of placental malaria infection., This work was supported by grant SAF-2007-63171 awarded by Ministerio de Educación y Ciencia (Spain) to J.B. and the CIBERESP (CIBER of Epidemiology and Public Health, Ministry of Health). Funds were also obtained from Direcció General de Recerca of Generalitat de Catalunya (Grup de Recerca Consolidat 2005SGR/00608) and from Banco de Bilbao, Vizcaya, Argentaria Foundation (grant number BBVA 02-0). The CISM receives core support from the Spanish Agency for International Cooperation and Development (AECID). A.M. was supported by the Spanish Ministry of Health (Program for the Promotion of Biomedical Research and Health Sciences, Instituto de Salud Carlos III, CP-04/00220). M.S. is supported by a PhD fellowship from the Programa de becas FPU del Ministerio de Educación y Ciencia, Spain (AP2005-3982).

Published
2009

25. Human pseudogenes of the ABO family show a complex evolutionary dynamics and loss of function

Author

Anna Ramírez-Soriano, Francesc Calafell, Stéphanie Despiau, Francis Roubinet, Ferran Casals, Tomas Marques-Bonet, Anna Ferrer-Admetlla, Martin Sikora, Jaume Bertranpetit, and Antoine Blancher

Subjects
Genetics, Nonsynonymous substitution, Natural selection, Pseudogene, Lineage (evolution), ABO blood group, Genetic Variation, Glycosyltransferases, Human genetic variation, Biology, GT6 gene family, Biochemistry, Linkage Disequilibrium, ABO Blood-Group System, Evolution, Molecular, Haplotypes, Evolutionary biology, Gene family, Humans, Allele, Evolutionary dynamics, Pseudogenes, Glycosyltransferase
Abstract

9 páginas, 5 tablas., The GT6 glycosyltransferases gene family, that includes the ABO blood group, shows a complex evolution pattern, with multiple events of gain and loss in different mammal species. In humans the ABO gene is considered the sole functional member although the O allele is null and is fixed in certain populations. Here, we analyze the human GT6 pseudogene sequences (Forssman, IGB3, GGTA1, GT6m5, GT6m6, and GT6m7) from an evolutionary perspective, by the study of (i) their diversity levels in populations through the resequencing analysis of European and African individuals; (ii) the interpopulation differentiation, with genotyping data from a survey of populations covering most of human genetic diversity; and (iii) the interespecific divergence, by the comparison of the human and some other primate species sequences. Since pseudogenes are expected to evolve under neutrality, they should show an evolutionary pattern different to that of functional sequences, with higher levels of diversity as well as a ratio of nonsynonymous to synonymous changes close to 1. We describe some departures from these expectations, including selection for inactivation in IGB3, GGTA1, and the interesting case of FS (Forssman) with a probable shift of its initial function in the primate lineage, which put it apart from a pure neutral pseudogene. These results suggest that some of these GT6 human pseudogenes may still be functional and retain some valuable unknown function in humans, in some case even at the protein level. The evolutionary analysis of all members of the GT6 family in humans allows an insight into their functional history, a process likely due to the interaction of the host glycans that they synthesize with pathogens; the past process that can be unraveled through the footprints left by natural selection in the extant genome variation., Genoma España (Proyectos Piloto del CEGEN); Ministerio de Educación y Ciencia (Spain) (BFU2004-02002, BFU2005- 00243, and SAF-2007-63171); the Direcció General de Recerca of Generalitat de Catalunya (Grup de Recerca Consolidat 2005SGR/00608); the National Institute for Bioinformatics (www.inab.org), a platform of Genoma España; the Ministère Français de la recherche (EA 3034; partly funded); Etablissement Français du Sang (EFS; partly funded); and the Programa de becas FPU del Ministerio de Educación y Ciencia, Spain (AP2005-3982 to M.S.).

Published
2009

26. Balancing selection is the main force shaping the evolution of innate immunity genes

Author

Jaume Bertranpetit, Anna Ferrer-Admetlla, Elena Bosch, Ferran Casals, Arcadi Navarro, Aura Muntasell, Tomas Marques-Bonet, Ross Lazarus, Martin Sikora, Anna Ramírez-Soriano, and Francesc Calafell

Subjects
Genetics, Phenotypic plasticity, Innate immune system, Genotype, Immunology, Toll-Like Receptors, Lipopolysaccharide Receptors, Biology, Balancing selection, Acquired immune system, Polymorphism, Single Nucleotide, Immunity, Innate, Evolution, Molecular, Immune system, Genes, Haplotypes, Immunity, Immunology and Allergy, Humans, Adaptation, Selection, Genetic, Phylogeny, Local adaptation
Abstract

The evolutionarily recent geographic expansion of humans, and the even more recent development of large, relatively dense human settlements, has exposed our species to new pathogenic environments. Potentially lethal pathogens are likely to have exerted important selective pressures on our genome, so immunity genes can be expected to show molecular signatures of the adaptation of human populations to these recent conditions. While genes related to the acquired immunity system have indeed been reported to show traces of local adaptation, little is known about the response of the innate immunity system. In this study, we analyze the variability patterns in different human populations of fifteen genes related to innate immunity. We have used both single nucleotide polymorphism and sequence data, and through the analysis of interpopulation differentiation, the linkage disequilibrium pattern, and intrapopulation diversity, we have discovered some signatures of positive and especially balancing selection in these genes, thus confirming the importance of the immune system genetic plasticity in the evolutionary adaptive process. Interestingly, the strongest evidence is found in three TLR genes and CD14. These innate immunity genes play a pivotal role, being involved in the primary recognition of pathogens. In general, more evidences of selection appear in the European populations, in some case possibly related to severe population specific pressures. However, we also describe evidence from African populations, which may reflect parallel or long-term selective forces acting in different geographic areas.

Published
2008

27. Neuropathologic findings in an aged albino gorilla

Author

S. Serrat, Anna Serafín, Mercedes Márquez, Jaume Bertranpetit, Martí Pumarola, Anna Ferrer-Admetlla, Isidro Ferrer, and H. Fernández-Bellon

Subjects
Male, Pathology, medicine.medical_specialty, Neurodegeneration with brain iron accumulation, Iron, Substantia nigra, Gorilla, Neuropathology, Biology, Pantothenate kinase-associated neurodegeneration, Fatal Outcome, Microscopy, Electron, Transmission, biology.animal, Spheroids, Cellular, medicine, Animals, Gorilla gorilla, General Veterinary, Anatomy, DNA, Sequence Analysis, DNA, medicine.disease, PANK2, Immunohistochemistry, Ape Diseases, Phosphotransferases (Alcohol Group Acceptor), nervous system, Dyskinesia, Nerve Degeneration, Animals, Zoo, medicine.symptom, Corpora amylacea
Abstract

Pallido-nigral spheroids associated with iron deposition have been observed in some aged clinically normal nonhuman primates. In humans, similar findings are observed in neurodegeneration with brain iron accumulation diseases, which, in some cases, show associated mutations in pantothenate kinase 2 gene (PANK2). Here we present an aged gorilla, 40 years old, suffering during the last 2 years of life from progressive tetraparesis, nystagmus, and dyskinesia of the arms, hands, and neck, with accompanying abnormal behavior. The postmortem neuropathologic examination revealed, in addition to aging-associated changes in the brain, numerous corpora amylacea in some brain areas, especially the substantia nigra, and large numbers of axonal spheroids associated with iron accumulation in the internal globus pallidus. Sequencing of the gorilla PANK2 gene failed to detect any mutation. The clinical, neuropathologic, and genetic findings in this gorilla point to an age-related pallido-nigral degeneration that presented PKAN-like neurologic deficits.

Published
2008

28. Is there selection for the pace of successive inactivation of the arpAT gene in primates?

Author

Josep Chillarón, David Torrents, Jaume Bertranpetit, Ferran Casals, Anna Ferrer-Admetlla, and Manuel Palacín

Subjects
Genetics, Primates, Mutation, Natural selection, Amino Acid Transport Systems, Pseudogene, myr, Biology, medicine.disease_cause, Evolution, Molecular, medicine, Codon, Terminator, Gene silencing, Animals, Humans, Selection, Genetic, Frameshift Mutation, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Loss function, Function (biology), Phylogeny, Pseudogenes
Abstract

Pseudogenes have classically been considered inactive sequences evolving under neutrality. In recent years, however, a growing body of evidence is favoring the appearance of hypotheses attributing a functional role to pseudogenes. One of these hypotheses is that the silencing of a gene could produce a loss of function that could have been favored by natural selection. Here, we analyzed the pace of pseudogenization of arpAT, an L-DOPA transporter related to the neurotransmitter function of this amino acid in the brain. While active in rodent, dog, and chicken, arpAT has been silenced during primate evolution. Given the high number of inactivating mutations described in humans, it is possible that there have been selective pressures favoring this silencing. Through analysis of orthologous sequences in several primate species, we show that the silencing of arpAT occurred approximately 77 million to 90 million years ago, and that the observed mutation pattern is likely a consequence of its antiquity.

Published
2007

29. Influenza Virus Drug Resistance: A Time-Sampled Population Genetics Perspective

Author

Foll, Matthieu, primary, Poh, Yu-Ping, additional, Renzette, Nicholas, additional, Ferrer-Admetlla, Anna, additional, Bank, Claudia, additional, Shim, Hyunjin, additional, Malaspinas, Anna-Sapfo, additional, Ewing, Gregory, additional, Liu, Ping, additional, Wegmann, Daniel, additional, Caffrey, Daniel R., additional, Zeldovich, Konstantin B., additional, Bolon, Daniel N., additional, Wang, Jennifer P., additional, Kowalik, Timothy F., additional, Schiffer, Celia A., additional, Finberg, Robert W., additional, and Jensen, Jeffrey D., additional

Published
2014
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30. Influenza virus drug resistance: a time-sampled population genetics perspective

Author

Jeffrey D. Jensen, Matthieu Foll, Jennifer P. Wang, Robert W. Finberg, Gregory B. Ewing, Celia A. Schiffer, Daniel N. Bolon, Daniel R. Caffrey, Nicholas Renzette, Anna Ferrer-Admetlla, Claudia Bank, Daniel Wegmann, Timothy F. Kowalik, Hyunjin Shim, Yu Ping Poh, Konstantin B. Zeldovich, Anna-Sapfo Malaspinas, and Ping Liu

Subjects
0106 biological sciences, Evolutionary Genetics, Cancer Research, lcsh:QH426-470, Population, Bayesian probability, Population genetics, Computational biology, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Bayes' theorem, Influenza A Virus, H1N1 Subtype, Oseltamivir, Genetic drift, Effective population size, Effective Population Size, Evolutionary Modeling, Drug Resistance, Viral, Influenza, Human, Natural Selection, Genetics, Humans, Selection, Genetic, education, Molecular Biology, Genetics (clinical), Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), 030304 developmental biology, 0303 health sciences, education.field_of_study, Evolutionary Biology, Natural selection, Genetic Drift, Computational Biology, Bayes Theorem, 3. Good health, lcsh:Genetics, Genetics, Population, Mutation, Genetic Polymorphism, Population Genetics, Research Article
Abstract

The challenge of distinguishing genetic drift from selection remains a central focus of population genetics. Time-sampled data may provide a powerful tool for distinguishing these processes, and we here propose approximate Bayesian, maximum likelihood, and analytical methods for the inference of demography and selection from time course data. Utilizing these novel statistical and computational tools, we evaluate whole-genome datasets of an influenza A H1N1 strain in the presence and absence of oseltamivir (an inhibitor of neuraminidase) collected at thirteen time points. Results reveal a striking consistency amongst the three estimation procedures developed, showing strongly increased selection pressure in the presence of drug treatment. Importantly, these approaches re-identify the known oseltamivir resistance site, successfully validating the approaches used. Enticingly, a number of previously unknown variants have also been identified as being positively selected. Results are interpreted in the light of Fisher's Geometric Model, allowing for a quantification of the increased distance to optimum exerted by the presence of drug, and theoretical predictions regarding the distribution of beneficial fitness effects of contending mutations are empirically tested. Further, given the fit to expectations of the Geometric Model, results suggest the ability to predict certain aspects of viral evolution in response to changing host environments and novel selective pressures., Author Summary In recent years, considerable attention has been given to the evolution of drug resistance in the influenza A H1N1 strain. As a major annual cause of morbidity and mortality, combined with the rapid global spread of drug resistance, influenza remains as one of the most important global health concerns. Our work here focuses on a novel multi-faceted population-genetic approach utilizing unique whole-genome multi-time point experimental datasets in both the presence and absence of drug treatment. In addition, we present novel theoretical results and two newly developed and widely applicable statistical methodologies for utilizing time-sampled data – with a focus on distinguishing the relative contribution of genetic drift from that of positive and purifying selection. Results illustrate the available mutational paths to drug resistance, and offer important insights in to the mode and tempo of adaptation in a viral population.

Published
2014
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31. SNP analysis to results (SNPator): a web-based environment oriented to statistical genomics analyses upon SNP data

Author

Andrés Moreno-Estrada, Josep Alegre, Michelle Gardner, Ricardo Sangros, Ferran Casals, Elodie Gazave, Elena Bosch, Francesc Calafell, Anna Pérez-Lezaun, Carlos Morcillo-Suarez, Arcadi Navarro, Jaume Bertranpetit, Rafael de Cid, David Comas, Jorge Amigo, Roger L. Milne, and Anna Ferrer-Admetlla

Subjects
Quality Control, Statistics and Probability, Genotype, Single-nucleotide polymorphism, Genomics, Biology, computer.software_genre, Polymorphism, Single Nucleotide, Biochemistry, Evolution, Molecular, Upload, Software, Species Specificity, Web page, Animals, Humans, Molecular Biology, Internet, Models, Statistical, business.industry, Suite, Computational Biology, Biological Evolution, Computer Science Applications, Computational Mathematics, Phenotype, Computational Theory and Mathematics, The Internet, Data mining, business, computer, Algorithms, SNP array
Abstract

Summary: Single nucleotide polymorphisms (SNPs) are the most widely used marker in studies to assess associations between genetic variants and complex traits or diseases. They are also becoming increasingly important in the study of the evolution and history of humans and other species. The analysis and processing of SNPs obtained thanks to high-throughput technologies imply the time consuming and costly use of different, complex and usually format-incompatible software. SNPator is a user-friendly web-based SNP data analysis suite that integrates, among many other algorithms, the most common steps of a SNP association study. It frees the user from the need to have large computer facilities and an in depth knowledge of genetic software installation and management. Genotype data is directly read from the output files of the usual genotyping platforms. Phenotypic data on the samples can also be easily uploaded. Many different quality control and analysis procedures can be performed either by using built-in SNPator algorithms or by calling standard genetic software. Availability: Access is granted from the SNPator webpage http://www.snpator.org. Contact: arcadi.navarro@upf.edu; bioinformatica.cegen@upf.edu Supplementary information: Additional information, including tutorials and example datasets, is available from SNPator's webpage.

Published
2008

32. A Natural History of FUT2 Polymorphism in Humans

Author

Ferrer Admetlla, Anna, Sikora, Martin, Laayouni, Hafid, Esteve-Codina, Anna, Roubinet, Francis, Blancher, Antoine, Calafell, Francesc, Bertranpetit, Jaume, Casals, Ferran, Ferrer Admetlla, Anna, Sikora, Martin, Laayouni, Hafid, Esteve-Codina, Anna, Roubinet, Francis, Blancher, Antoine, Calafell, Francesc, Bertranpetit, Jaume, and Casals, Ferran

Abstract

Because pathogens are powerful selective agents, host-cell surface molecules used by pathogens as identification signals can reveal the signature of selection. Most of them are oligosaccharides, synthesized by glycosyltransferases. One known example is balancing selection shaping ABO evolution as a consequence of both, A and B antigens being recognized as receptors by some pathogens, and anti-A and/or anti-B natural antibodies produced by hosts conferring protection against the numerous infectious agents expressing A and B motifs. These antigens can also be found in tissues other than blood if there is activity of another enzyme, FUT2, a fucosyltransferase responsible for ABO biosynthesis in body fluids. Homozygotes for null variants at this locus present the nonsecretor phenotype (se), because they cannot express ABO antigens in secretions. Multiple independent mutations have been shown to be responsible for the nonsecretor phenotype, which is coexisting with the secretor phenotype in most populations. In this study, we have resequenced the coding region of FUT2 in 732 individuals from 39 worldwide human populations. We report a complex pattern of natural selection acting on the gene. Although frequencies of secretor and nonsecretor phenotypes are similar in different populations, the point mutations at the base of the phenotypes are different, with some variants showing a long history of balancing selection among Eurasian and African populations, and one recent variant showing a fast spread in East Asia, likely due to positive selection. Thus, a convergent phenotype composition has been achieved through different mutations with different evolutionary histories.

Published
2009

33. Decay of linkage disequilibrium within genes across HGDP-CEPH human samples: most population isolates do not show increased LD

Author

Bosch, Elena, Laayouni, Hafid, Morcillo-Suárez, Carlos, Casals, Ferran, Moreno Estrada, Andrés, Ferrer Admetlla, Anna, Gardner, Michelle, Rosa, Araceli, Navarro, Arcadi, Comas, David, Graffelman, Jan, Calafell, Francesc, Bertranpetit, Jaume, Bosch, Elena, Laayouni, Hafid, Morcillo-Suárez, Carlos, Casals, Ferran, Moreno Estrada, Andrés, Ferrer Admetlla, Anna, Gardner, Michelle, Rosa, Araceli, Navarro, Arcadi, Comas, David, Graffelman, Jan, Calafell, Francesc, and Bertranpetit, Jaume

Abstract

[Background] It is well known that the pattern of linkage disequilibrium varies between human populations, with remarkable geographical stratification. Indirect association studies routinely exploit linkage disequilibrium around genes, particularly in isolated populations where it is assumed to be higher. Here, we explore both the amount and the decay of linkage disequilibrium with physical distance along 211 gene regions, most of them related to complex diseases, across 39 HGDP-CEPH population samples, focusing particularly on the populations defined as isolates. Within each gene region and population we use r2 between all possible single nucleotide polymorphism (SNP) pairs as a measure of linkage disequilibrium and focus on the proportion of SNP pairs with r2 greater than 0.8., [Results] Although the average r2 was found to be significantly different both between and within continental regions, a much higher proportion of r2 variance could be attributed to differences between continental regions (2.8% vs. 0.5%, respectively). Similarly, while the proportion of SNP pairs with r2 > 0.8 was significantly different across continents for all distance classes, it was generally much more homogenous within continents, except in the case of Africa and the Americas. The only isolated populations with consistently higher LD in all distance classes with respect to their continent are the Kalash (Central South Asia) and the Surui (America). Moreover, isolated populations showed only slightly higher proportions of SNP pairs with r2 > 0.8 per gene region than non-isolated populations in the same continent. Thus, the number of SNPs in isolated populations that need to be genotyped may be only slightly less than in non-isolates., [Conclusion] The "isolated population" label by itself does not guarantee a greater genotyping efficiency in association studies, and properties other than increased linkage disequilibrium may make these populations interesting in genetic epidemiology.

Published
2009

34. Decay of linkage disequilibrium within genes across HGDP-CEPH human samples: most population isolates do not show increased LD

Author

Bosch, Elena, primary, Laayouni, Hafid, additional, Morcillo-Suarez, Carlos, additional, Casals, Ferran, additional, Moreno-Estrada, Andrés, additional, Ferrer-Admetlla, Anna, additional, Gardner, Michelle, additional, Rosa, Araceli, additional, Navarro, Arcadi, additional, Comas, David, additional, Graffelman, Jan, additional, Calafell, Francesc, additional, and Bertranpetit, Jaume, additional

Published
2009
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41. Decay of linkage disequilibrium within genes across HGDP-CEPH human samples: most population isolates do not show increased LD

Author

Araceli Rosa, David Comas, Anna Ferrer-Admetlla, Michelle Gardner, Ferran Casals, Carlos Morcillo-Suarez, Hafid Laayouni, Jan Graffelman, Jaume Bertranpetit, Arcadi Navarro, Elena Bosch, Andrés Moreno-Estrada, Francesc Calafell, and Universitat de Barcelona

Subjects
Linkage disequilibrium, Genotype, lcsh:QH426-470, lcsh:Biotechnology, Population, Single-nucleotide polymorphism, Biology, Genoma humà, Polymorphism, Single Nucleotide, Linkage Disequilibrium, Cell Line, Genètica de poblacions humanes, Human genetics, lcsh:TP248.13-248.65, Genetics, Humans, SNP, education, Genotyping, Genetic association, education.field_of_study, Genètica de poblacions, Genètica humana, Human genome, Genome, Human, Racial Groups, Human population genetics, Sequence Analysis, DNA, lcsh:Genetics, Genetics, Population, Genètica humana -- Variació, Research Article, Biotechnology
Abstract

9 pages, 2 figures, 4 additional files., [Background] It is well known that the pattern of linkage disequilibrium varies between human populations, with remarkable geographical stratification. Indirect association studies routinely exploit linkage disequilibrium around genes, particularly in isolated populations where it is assumed to be higher. Here, we explore both the amount and the decay of linkage disequilibrium with physical distance along 211 gene regions, most of them related to complex diseases, across 39 HGDP-CEPH population samples, focusing particularly on the populations defined as isolates. Within each gene region and population we use r2 between all possible single nucleotide polymorphism (SNP) pairs as a measure of linkage disequilibrium and focus on the proportion of SNP pairs with r2 greater than 0.8., [Results] Although the average r2 was found to be significantly different both between and within continental regions, a much higher proportion of r2 variance could be attributed to differences between continental regions (2.8% vs. 0.5%, respectively). Similarly, while the proportion of SNP pairs with r2 > 0.8 was significantly different across continents for all distance classes, it was generally much more homogenous within continents, except in the case of Africa and the Americas. The only isolated populations with consistently higher LD in all distance classes with respect to their continent are the Kalash (Central South Asia) and the Surui (America). Moreover, isolated populations showed only slightly higher proportions of SNP pairs with r2 > 0.8 per gene region than non-isolated populations in the same continent. Thus, the number of SNPs in isolated populations that need to be genotyped may be only slightly less than in non-isolates., [Conclusion] The "isolated population" label by itself does not guarantee a greater genotyping efficiency in association studies, and properties other than increased linkage disequilibrium may make these populations interesting in genetic epidemiology., This research was supported by "Fundación Genoma España" (proyectos piloto CEGEN 2004–2005), Dirección General de Investigación, Ministerio de Educación y Ciencia of Spain (grants BFU2005-00243, BFU2006-01235, BFU2006-15413-CO2-01, SEJ2006-13537) and Direcció General de Recerca, Generalitat de Catalunya (2005SGR00608). SNP genotyping services were provided by the Spanish "Centro Nacional de Genotipado"

42. An approximate Markov model for the wright-fisher diffusion and its application to time series data

Author

Ferrer-Admetlla, Anna, Leuenberger, Christoph, Jensen, Jeffrey D., Wegmann, Daniel, Ferrer-Admetlla, Anna, Leuenberger, Christoph, Jensen, Jeffrey D., and Wegmann, Daniel

Abstract

The joint and accurate inference of selection and demography from genetic data is considered a particularly challenging question in population genetics, since both process may lead to very similar patterns of genetic diversity. However, additional information for disentangling these effects may be obtained by observing changes in allele frequencies over multiple time points. Such data is common in experimental evolution studies, as well as in the comparison of ancient and contemporary samples. Leveraging this information, however, has been computationally challenging, particularly when considering multi-locus data sets. To overcome these issues, we introduce a novel, discrete approximation for diffusion processes, termed mean transition time approximation, which preserves the long-term behavior of the underlying continuous diffusion process. We then derive this approximation for the particular case of inferring selection and demography from time series data under the classic Wright- Fisher model and demonstrate that our approximation is well suited to describe allele trajectories through time, even when only a few states are used. We then develop a Bayesian inference approach to jointly infer the population size and locus-specific selection coefficients with high accuracy, and further extend this model to also infer the rates of sequencing errors and mutations. We finally apply our approach to recent experimental data on the evolution of drug resistance in Influenza virus, identifying likely targets of selection and finding evidence for much larger viral population sizes than previously reported.

43. Influenza virus drug resistance: A time-sampled population genetics perspective

Author

Foll, Matthieu, Poh, Yu-Ping, Renzette, Nicholas, Ferrer-Admetlla, Anna, Bank, Claudia, Shim, Hyunjin, Malaspinas, Anna-Sapfo, Ewing, Gregory, Liu, Ping, Wegmann, Daniel, Caffrey, Daniel R., Zeldovich, Konstantin B., Bolon, Daniel N., Wang, Jennifer P., Kowalik, Timothy F., Schiffer, Celia A., Finberg, Robert W., Jensen, Jeffrey D., Foll, Matthieu, Poh, Yu-Ping, Renzette, Nicholas, Ferrer-Admetlla, Anna, Bank, Claudia, Shim, Hyunjin, Malaspinas, Anna-Sapfo, Ewing, Gregory, Liu, Ping, Wegmann, Daniel, Caffrey, Daniel R., Zeldovich, Konstantin B., Bolon, Daniel N., Wang, Jennifer P., Kowalik, Timothy F., Schiffer, Celia A., Finberg, Robert W., and Jensen, Jeffrey D.

Abstract

The challenge of distinguishing genetic drift from selection remains a central focus of population genetics. Time-sampled data may provide a powerful tool for distinguishing these processes, and we here propose approximate Bayesian, maximum likelihood, and analytical methods for the inference of demography and selection from time course data. Utilizing these novel statistical and computational tools, we evaluate whole-genome datasets of an influenza A H1N1 strain in the presence and absence of oseltamivir (an inhibitor of neuraminidase) collected at thirteen time points. Results reveal a striking consistency amongst the three estimation procedures developed, showing strongly increased selection pressure in the presence of drug treatment. Importantly, these approaches re-identify the known oseltamivir resistance site, successfully validating the approaches used. Enticingly, a number of previously unknown variants have also been identified as being positively selected. Results are interpreted in the light of Fisher's Geometric Model, allowing for a quantification of the increased distance to optimum exerted by the presence of drug, and theoretical predictions regarding the distribution of beneficial fitness effects of contending mutations are empirically tested. Further, given the fit to expectations of the Geometric Model, results suggest the ability to predict certain aspects of viral evolution in response to changing host environments and novel selective pressures.

44. Human pseudogenes of the ABO family show a complex evolutionary dynamics and loss of function.

Author

Ferran Casals, Anna Ferrer-Admetlla, Martin Sikora, Anna Ramírez-Soriano, Tomàs Marquès-Bonet, Stéphanie Despiau, Francis Roubinet, Francesc Calafell, Jaume Bertranpetit, and Antoine Blancher

Subjects
*GLYCOSYLTRANSFERASES, *BLOOD groups, *GENETICS, *GENOMES
Abstract

The GT6 glycosyltransferases gene family, that includes the ABO blood group, shows a complex evolution pattern, with multiple events of gain and loss in different mammal species. In humans the ABO gene is considered the sole functional member although the O allele is null and is fixed in certain populations. Here, we analyze the human GT6 pseudogene sequences (Forssman, IGB3, GGTA1, GT6m5, GT6m6, and GT6m7) from an evolutionary perspective, by the study of (i) their diversity levels in populations through the resequencing analysis of European and African individuals; (ii) the interpopulation differentiation, with genotyping data from a survey of populations covering most of human genetic diversity; and (iii) the interespecific divergence, by the comparison of the human and some other primate species sequences. Since pseudogenes are expected to evolve under neutrality, they should show an evolutionary pattern different to that of functional sequences, with higher levels of diversity as well as a ratio of nonsynonymous to synonymous changes close to 1. We describe some departures from these expectations, including selection for inactivation in IGB3, GGTA1, and the interesting case of FS (Forssman) with a probable shift of its initial function in the primate lineage, which put it apart from a pure neutral pseudogene. These results suggest that some of these GT6 human pseudogenes may still be functional and retain some valuable unknown function in humans, in some case even at the protein level. The evolutionary analysis of all members of the GT6 family in humans allows an insight into their functional history, a process likely due to the interaction of the host glycans that they synthesize with pathogens; the past process that can be unraveled through the footprints left by natural selection in the extant genome variation. [ABSTRACT FROM AUTHOR]

Published
2009
Full Text
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45. Influenza virus drug resistance: a time-sampled population genetics perspective.

Author

Matthieu Foll, Yu-Ping Poh, Nicholas Renzette, Anna Ferrer-Admetlla, Claudia Bank, Hyunjin Shim, Anna-Sapfo Malaspinas, Gregory Ewing, Ping Liu, Daniel Wegmann, Daniel R Caffrey, Konstantin B Zeldovich, Daniel N Bolon, Jennifer P Wang, Timothy F Kowalik, Celia A Schiffer, Robert W Finberg, and Jeffrey D Jensen

Subjects
Genetics, QH426-470
Abstract

The challenge of distinguishing genetic drift from selection remains a central focus of population genetics. Time-sampled data may provide a powerful tool for distinguishing these processes, and we here propose approximate Bayesian, maximum likelihood, and analytical methods for the inference of demography and selection from time course data. Utilizing these novel statistical and computational tools, we evaluate whole-genome datasets of an influenza A H1N1 strain in the presence and absence of oseltamivir (an inhibitor of neuraminidase) collected at thirteen time points. Results reveal a striking consistency amongst the three estimation procedures developed, showing strongly increased selection pressure in the presence of drug treatment. Importantly, these approaches re-identify the known oseltamivir resistance site, successfully validating the approaches used. Enticingly, a number of previously unknown variants have also been identified as being positively selected. Results are interpreted in the light of Fisher's Geometric Model, allowing for a quantification of the increased distance to optimum exerted by the presence of drug, and theoretical predictions regarding the distribution of beneficial fitness effects of contending mutations are empirically tested. Further, given the fit to expectations of the Geometric Model, results suggest the ability to predict certain aspects of viral evolution in response to changing host environments and novel selective pressures.

Published
2014
Full Text
View/download PDF

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