Publications (11)53.62 Total impact
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Article: Interrogating 11 fast-evolving genes for signatures of recent positive selection in worldwide human populations.
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ABSTRACT: Different signatures of natural selection persist over varying time scales in our genome, revealing possible episodes of adaptative evolution during human history. Here, we identify genes showing signatures of ancestral positive selection in the human lineage and investigate whether some of those genes have been evolving adaptatively in extant human populations. Specifically, we compared more than 11,000 human genes with their orthologs in chimpanzee, mouse, rat, and dog and applied a branch-site likelihood method to test for positive selection on the human lineage. Among the significant cases, a robust set of 11 genes was then further explored for signatures of recent positive selection using single nucleotide polymorphism (SNP) data. We genotyped 223 SNPs in 39 worldwide populations from the HGDP-CEPH diversity panel and supplemented this information with available genotypes for up to 4,814 SNPs distributed along 2 Mb centered on each gene. After exploring the allele frequency spectrum, population differentiation and the maintenance of long unbroken haplotypes, we found signals of recent adaptative phenomena in only one of the 11 candidate gene regions. However, the signal of recent selection in this region may come from a different, neighboring gene (CD5) rather than from the candidate gene itself (VPS37C). For this set of positively selected genes in the human lineage, we find no indication that these genes maintained their rapid evolutionary pace among human populations. Based on these data, it therefore appears that adaptation for human-specific and for population-specific traits may have involved different genes.Molecular Biology and Evolution 08/2009; 26(10):2285-97. · 5.55 Impact Factor -
Article: Human pseudogenes of the ABO family show a complex evolutionary dynamics and loss of function.
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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.Glycobiology 03/2009; 19(6):583-91. · 3.58 Impact Factor -
Article: Balancing selection is the main force shaping the evolution of innate immunity genes.
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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.The Journal of Immunology 08/2008; 181(2):1315-22. · 5.79 Impact Factor -
Article: Frequent appearance of novel protein-coding sequences by frameshift translation.
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ABSTRACT: Genomic duplication, followed by divergence, contributes to organismal evolution. Several mechanisms, such as exon shuffling and alternative splicing, are responsible for novel gene functions, but they generate homologous domains and do not usually lead to drastic innovation. Major novelties can potentially be introduced by frameshift mutations and this idea can explain the creation of novel proteins. Here, we employ a strategy using simulated protein sequences and identify 470 human and 108 mouse frameshift events that originate new gene segments. No obvious interspecies overlap was observed, suggesting high rates of acquisition of evolutionary events. This inference is supported by a deficiency of TpA dinucleotides in the protein-coding sequences, which decreases the occurrence of translational termination, even on the complementary strand. Increased usage of the TGA codon as the termination signal in newer genes also supports our inference. This suggests that tolerated frameshift changes are a prevalent mechanism for the rapid emergence of new genes and that protein-coding sequences can be derived from existing or ancestral exons rather than from events that result in noncoding sequences becoming exons.Genomics 01/2007; 88(6):690-7. · 3.02 Impact Factor -
Article: The prion protein gene in humans revisited: lessons from a worldwide resequencing study.
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ABSTRACT: Ample evidence has accumulated showing that different coding variants of the PRNP gene confer differential susceptibility for prion diseases. Here we evaluate the patterns of nucleotide variation in PRNP exon 2, which includes all the protein-coding sequence, by resequencing a worldwide sample of 174 humans for 2378 bp. In line with previous studies, we found two main haplotypes differentiated by nonsynonymous substitution in codon 129. Our analyses reveal the worldwide pattern of variation at the PRNP gene to be inconsistent with neutral expectations, indicating instead an excess of low-frequency variants, a footprint of the action of either positive or purifying selection. A comparison of neutrality test statistics for PRNP with other human genes indicates that the signal of positive selection on PRNP is stronger than expected from a possible confounding genome-wide background signal of population expansion. Two main conclusions arise from our analysis. First, the existence of an ancient, stable, balanced polymorphism that has been claimed in a previous study and related to cannibalism can be rejected and is shown to be due to ascertainment bias. Second, our results are consistent with a complex history of selection including mainly positive selection, even if short local periods of balancing selection (Kuru-like episodes), or even a weak purifying selection model, are consistent with our data.Genome Research 03/2006; 16(2):231-9. · 13.61 Impact Factor -
Article: Murine segmental duplications are hot spots for chromosome and gene evolution.
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ABSTRACT: Mouse and rat genomic sequences permit us to obtain a global view of evolutionary rearrangements that have occurred between the two species and to define hallmarks that might underlie these events. We present a comparative study of the sequence assemblies of mouse and rat genomes and report an enrichment of rodent-specific segmental duplications in regions where synteny is not preserved. We show that segmental duplications present higher rates of molecular evolution and that genes in rearranged regions have evolved faster than those located elsewhere. Previous studies have shown that synteny breakpoints between the mouse and the human genomes are enriched in human segmental duplications, suggesting a causative connection between such structures and evolutionary rearrangements. Our work provides further evidence to support the role of segmental duplications in chromosomal rearrangements in the evolution of the architecture of mammalian chromosomes and in the speciation processes that separate the mouse and the rat.Genomics 01/2006; 86(6):692-700. · 3.02 Impact Factor -
Article: Association Cluster Detector: a tool for heuristic detection of significance clusters in whole-genome scans.
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ABSTRACT: Whole genome scans analyze large sets of genetic markers, mainly single nucleotide polymorphisms, over the entire genome in order to find variants and regions associated with complex traits so these can be further investigated. Analyzing the results of such scans becomes difficult due to multiple testing problems and to the genomic distributions of recombination, linkage disequilibrium and true associations, which generate an extremely complex network of dependences between markers. Here we present Association Cluster Detector (ACD), a simple tool aiming to ease the analysis of the results of whole genome scans. ACD facilitates correction for multiple tests using several standard procedures and implements a sliding-window heuristic method that helps in detecting potentially interesting candidate regions by exploiting the property of non-random distribution of significantly associated markers. AVAILABILITY: The tool can be downloaded from http://www.upf.es/cexs/recerca/bioevo/softanddata.htmBioinformatics 10/2005; 21 Suppl 2:ii180-1. · 5.47 Impact Factor -
Article: Molecular dating of caprines using ancient DNA sequences of Myotragus balearicus, an extinct endemic Balearic mammal.
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ABSTRACT: Myotragus balearicus was an endemic bovid from the Balearic Islands (Western Mediterranean) that became extinct around 6,000-4,000 years ago. The Myotragus evolutionary lineage became isolated in the islands most probably at the end of the Messinian crisis, when the desiccation of the Mediterranean ended, in a geological date established at 5.35 Mya. Thus, the sequences of Myotragus could be very valuable for calibrating the mammalian mitochondrial DNA clock and, in particular, the tree of the Caprinae subfamily, to which Myotragus belongs. We have retrieved the complete mitochondrial cytochrome b gene (1,143 base pairs), plus fragments of the mitochondrial 12S gene and the nuclear 28S rDNA multi-copy gene from a well preserved Myotragus subfossil bone. The best resolved phylogenetic trees, obtained with the cytochrome b gene, placed Myotragus in a position basal to the Ovis group. Using the calibration provided by the isolation of Balearic Islands, we calculated that the initial radiation of caprines can be dated at 6.2 +/- 0.4 Mya. In addition, alpine and southern chamois, considered until recently the same species, split around 1.6 +/- 0.3 Mya, indicating that the two chamois species have been separated much longer than previously thought. Since there are almost no extant endemic mammals in Mediterranean islands, the sequence of the extinct Balearic endemic Myotragus has been crucial for allowing us to use the Messinian crisis calibration point for dating the caprines phylogenetic tree.BMC Evolutionary Biology 02/2005; 5:70. · 3.52 Impact Factor -
Article: Chromosomal rearrangements and the genomic distribution of gene-expression divergence in humans and chimpanzees.
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ABSTRACT: The genomic DNA sequences of humans and chimpanzees differ by only 1.24%. Recently, however, substantial differences in gene-expression patterns between the two species have been revealed. In this article, we investigate the genomic distribution of such differences. Besides confirming previous findings about the evolution of sex chromosomes and duplications, we show that chromosomal rearrangements are associated with increased gene-expression differences in the brain and that rearrangements can have both direct and indirect effects on the expression of linked genes. In addition, our results are consistent with a role for some rearrangements in the original speciation events that separated the human and chimpanzee lineages.Trends in Genetics 12/2004; 20(11):524-9. · 10.06 Impact Factor -
Article: Interrogating 11 Fast-Evolving Genes for Signatures of Recent Positive Selection in Worldwide Human Populations
Molecular Biology and Evolution, v.26, 2285-2297 (2009). -
Article: Estructura del genoma
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ABSTRACT: 1 Department of Genome sciences, Universitat de washington. 2 Genes and Disease program, centre de Regulació Genòmica i quantitative Genomic Medicine laboratories (qGenomics). Adreces per a la correspondència. RESUM El genoma és una estructura altament dinàmica amb una certa tendència a la inestabili-tat, i està, per tant, subjecte a l'escrutini de la selecció natural. En el camí d'entendre el ge-noma hem pogut observar el paper clau que tenen les repeticions (de tota mena) per com-prendre l'evolució estructural del genoma humà i com es relaciona l'estructura i la funció. Així, recentment, hem pogut apreciar que, a part de les variacions clàssiques i els SNP (po-limorfismes d'un sol nucleòtid), els mamífers (com a mínim els ratolins i els humans) tenim una estructura dels nostres genomes altament variable. L'estudi de les regions variants en nombre de còpia (structural variants o copy number polymorphism) ens ha permès observar que els canvis en l'estructura tenen repercussió en l'expressió dels gens, que es tradueixen tant en variabilitat fenotípica entre individus com, en casos més extrems, en malalties. En aquest capítol donarem una visió sobre l'estructura i el dinamisme del genoma, centrant-nos en aspectes evolutius del polimorfisme humà i la malaltia. Paraules clau: genoma, repeticions comunes, variants estructurals (SV), duplicacions segmentàries (DS), variants de nombre de còpia (CNV).
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- Genomics (2)
- Trends in Genetics (1)
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Institutions
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2004–2005
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University Pompeu Fabra
- Department of Experimental and Health Sciences
Barcelona, Catalonia, Spain
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