Your search keyword '"Agostinho Antunes"' showing total 8 results

1. Corrigendum to: The new COST Action European Venom Network (EUVEN)—synergy and future perspectives of modern venomics

Author

Maria Vittoria Modica, Rafi Ahmad, Stuart Ainsworth, Gregor Anderluh, Agostinho Antunes, Dimitris Beis, Figen Caliskan, Mauro Dalla Serra, Sebastien Dutertre, Yehu Moran, Ayse Nalbantsoy, Naoual Oukkache, Stano Pekar, Maido Remm, Bjoern Marcus von Reumont, Yiannis Sarigiannis, Andrea Tarallo, Jan Tytgat, Eivind Andreas Baste Undheim, Yuri Utkin, Aida Verdes, Aude Violette, and Giulia Zancolli

Subjects

Health Informatics, Computer Science Applications

Published

2021

2. Measuring phylogenetic signal between categorical traits and phylogenies

Author

Ana Paula Rocha, Cidália Gomes, Rui Borges, Agostinho Antunes, and João Paulo Machado

Subjects

Mammals, Statistics and Probability, 0303 health sciences, Degree (graph theory), Phylogenetic tree, Range (biology), 030302 biochemistry & molecular biology, Biology, Biochemistry, Computer Science Applications, 03 medical and health sciences, Computational Mathematics, Tree (data structure), Phenotype, Computational Theory and Mathematics, Evolutionary biology, Phylogenetics, Trait, Animals, Molecular Biology, Categorical variable, Phylogeny, Statistic, 030304 developmental biology

Abstract

Motivation Determining whether a trait and phylogeny share some degree of phylogenetic signal is a flagship goal in evolutionary biology. Signatures of phylogenetic signal can assist the resolution of a broad range of evolutionary questions regarding the tempo and mode of phenotypic evolution. However, despite the considerable number of strategies to measure it, few and limited approaches exist for categorical traits. Here, we used the concept of Shannon entropy and propose the δ statistic for evaluating the degree of phylogenetic signal between a phylogeny and categorical traits. Results We validated δ as a measure of phylogenetic signal: the higher the δ-value the higher the degree of phylogenetic signal between a given tree and a trait. Based on simulated data we proposed a threshold-based classification test to pinpoint cases of phylogenetic signal. The assessment of the test’s specificity and sensitivity suggested that the δ approach should only be applied to 20 or more species. We have further tested the performance of δ in scenarios of branch length and topology uncertainty, unbiased and biased trait evolution and trait saturation. Our results showed that δ may be applied in a wide range of phylogenetic contexts. Finally, we investigated our method in 14 360 mammalian gene trees and found that olfactory receptor genes are significantly associated with the mammalian activity patterns, a result that is congruent with expectations and experiments from the literature. Our application shows that δ can successfully detect molecular signatures of phenotypic evolution. We conclude that δ represents a useful measure of phylogenetic signal since many phenotypes can only be measured in categories. Availability and implementation https://github.com/mrborges23/delta_statistic. Supplementary information Supplementary data are available at Bioinformatics online.

Published

2018

3. Positive Selection Linked with Generation of Novel Mammalian Dentition Patterns

Author

Warren E. Johnson, Emanuel Maldonado, Agostinho Antunes, Siby Philip, Stephen J. O'Brien, and João Paulo Machado

Subjects

0301 basic medicine, Mutation rate, mammalian dentition genes, tooth-associated genes, Biology, Genome, 03 medical and health sciences, Mutation Rate, stomatognathic system, positive selection, Genetics, Animals, Dentition, Selection, Genetic, Gene, Phylogeny, Ecology, Evolution, Behavior and Systematics, teeth, Mammals, adaptive evolution, Structural organization, Positive selection, Intron, Anatomy, Phenotype, stomatognathic diseases, 030104 developmental biology, Evolutionary biology, Transcriptome, Research Article

Abstract

A diverse group of genes are involved in the tooth development of mammals. Several studies, focused mainly on mice and rats, have provided a detailed depiction of the processes coordinating tooth formation and shape. Here we surveyed 236 tooth-associated genes in 39 mammalian genomes and tested for signatures of selection to assess patterns of molecular adaptation in genes regulating mammalian dentition. Of the 236 genes, 31 (∼13.1%) showed strong signatures of positive selection that may be responsible for the phenotypic diversity observed in mammalian dentition. Mammalian-specific tooth-associated genes had accelerated mutation rates compared with older genes found across all vertebrates. More recently evolved genes had fewer interactions (either genetic or physical), were associated with fewer Gene Ontology terms and had faster evolutionary rates compared with older genes. The introns of these positively selected genes also exhibited accelerated evolutionary rates, which may reflect additional adaptive pressure in the intronic regions that are associated with regulatory processes that influence tooth-gene networks. The positively selected genes were mainly involved in processes like mineralization and structural organization of tooth specific tissues such as enamel and dentin. Of the 236 analyzed genes, 12 mammalian-specific genes (younger genes) provided insights on diversification of mammalian teeth as they have higher evolutionary rates and exhibit different expression profiles compared with older genes. Our results suggest that the evolution and development of mammalian dentition occurred in part through positive selection acting on genes that previously had other functions.

Published

2016

4. Olfactory Receptor Subgenomes Linked with Broad Ecological Adaptations in Sauropsida

Author

Cai Li, Warren E. Johnson, Erich D. Jarvis, Emanuel Maldonado, Imran Khan, M. Thomas P. Gilbert, Guojie Zhang, Agostinho Antunes, Zhikai Yang, and Stephen J. O'Brien

Subjects

Acclimatization, Alligator, Foraging, Zoology, Receptors, Odorant, Predation, Birds, Evolution, Molecular, Species Specificity, biology.animal, Genetics, medicine, Animals, Sauropsida, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, Green sea turtle, Alligators and Crocodiles, Genome, Olfactory receptor, Ecology, biology, Genetic Variation, Reptiles, Sequence Analysis, DNA, biology.organism_classification, Adaptation, Physiological, Turtles, Olfactory bulb, medicine.anatomical_structure, Adaptation

Abstract

Olfactory receptors (ORs) govern a prime sensory function. Extant birds have distinct olfactory abilities, but the molecular mechanisms underlining diversification and specialization remain mostly unknown. We explored OR diversity in 48 phylogenetic and ecologically diverse birds and 2 reptiles (alligator and green sea turtle). OR subgenomes showed species- and lineage-specific variation related with ecological requirements. Overall 1,953 OR genes were identified in reptiles and 16,503 in birds. The two reptiles had larger OR gene repertoires (989 and 964 genes, respectively) than birds (182-688 genes). Overall, birds had more pseudogenes (7,855) than intact genes (1,944). The alligator had significantly more functional genes than sea turtle, likely because of distinct foraging habits. We found rapid species-specific expansion and positive selection in OR14 (detects hydrophobic compounds) in birds and in OR51 and OR52 (detect hydrophilic compounds) in sea turtle, suggestive of terrestrial and aquatic adaptations, respectively. Ecological partitioning among birds of prey, water birds, land birds, and vocal learners showed that diverse ecological factors determined olfactory ability and influenced corresponding olfactory-receptor subgenome. OR5/8/9 was expanded in predatory birds and alligator, suggesting adaptive specialization for carnivory. OR families 2/13, 51, and 52 were correlated with aquatic adaptations (water birds), OR families 6 and 10 were more pronounced in vocal-learning birds, whereas most specialized land birds had an expanded OR family 14. Olfactory bulb ratio (OBR) and OR gene repertoire were correlated. Birds that forage for prey (carnivores/piscivores) had relatively complex OBR and OR gene repertoires compared with modern birds, including passerines, perhaps due to highly developed cognitive capacities facilitating foraging innovations.

Published

2015

5. Genetic Evidence for Contrasting Wetland and Savannah Habitat Specializations in Different Populations of Lions (Panthera leo)

Author

Christiaan W. Winterbach, Agostinho Antunes, A. E. Moore, Stephen J. O'Brien, Hanlie Evelyn Kathleen Winterbach, and Fenton P.D. Cotterill

Subjects

Lions, 0301 basic medicine, Conservation of Natural Resources, Population, Biodiversity, Genetic admixture, Wetland, Biology, DNA, Mitochondrial, Grassland, Evolution, Molecular, 03 medical and health sciences, biology.animal, parasitic diseases, Genetics, Animals, education, Molecular Biology, Genetics (clinical), geography, education.field_of_study, Botswana, geography.geographical_feature_category, Ecology, Genetic Variation, food and beverages, Arid, Genetics, Population, 030104 developmental biology, Haplotypes, Habitat, Wetlands, Panthera, Biotechnology

Abstract

South-central Africa is characterized by an archipelago of wetlands, which has evolved in time and space since at least the Miocene, providing refugia for animal species during Pleistocene arid episodes. Their importance for biodiversity in the region is reflected in the evolution of a variety of specialist mammal and bird species, adapted to exploit these wetland habitats. Populations of lions (Panthera leo) across south-central and east Africa have contrasting signatures of mitochondrial DNA haplotypes and biparental nuclear DNA in wetland and savannah habitats, respectively, pointing to the evolution of distinct habitat preferences. This explains the absence of genetic admixture of populations from the Kalahari savannah of southwest Botswana and the Okavango wetland of northern Botswana, despite separation by only 500 km. We postulate that ancestral lions were wetland specialists and that the savannah lions evolved from populations that were isolated during arid Pleistocene episodes. Expansion of grasslands and the resultant increase in herbivore populations during mesic Pleistocene climatic episodes provided the stimulus for the rapid population expansion and diversification of the highly successful savannah lion specialists. Our model has important implications for lion conservation.

Published

2015

6. Adaptive Functional Divergence of the Warm Temperature Acclimation-Related Protein (WAP65) in Fishes and the Ortholog Hemopexin (HPX) in Mammals

Author

Agostinho Antunes, Vitor Vasconcelos, and João Paulo Machado

Subjects

Fish Proteins, 0106 biological sciences, Protein Conformation, Acclimatization, Biology, 010603 evolutionary biology, 01 natural sciences, Evolution, Molecular, 03 medical and health sciences, Negative selection, Hemopexin, Gene Duplication, Gene duplication, Genetics, Animals, Selection, Genetic, Evolutionary dynamics, Molecular Biology, Gene, Phylogeny, Genetics (clinical), 030304 developmental biology, Mammals, chemistry.chemical_classification, 0303 health sciences, Fishes, Temperature, Amino acid, chemistry, Rate of evolution, Functional divergence, Biotechnology

Abstract

Gene duplication is an important mechanism that leads to genetic novelty. Different, nonexclusive processes are likely involved, and many adaptive and nonadaptive events may contribute to the maintenance of duplicated genes. In some teleosts, a duplicate copy of the mammalian ortholog Hemopexin (HPX) is present, known as the warm temperature acclimation-related protein (WAP65). Both WAP65 and HPX have been associated with iron homeostasis due to the affinity to bind the toxic-free heme circulating in the blood stream. We have assessed the evolutionary dynamics of WAP65 and HPX genes to understand the adaptive role of positive selection at both nucleotide and amino acid level. Our results showed an asymmetrical evolution between the paralogs WAP65-1 and WAP65-2 after duplication with a slight acceleration of the evolutionary rate in WAP65-1, but not in WAP65-2, and few sites contributing to the functional distinction between the paralogs, whereas the majority of the protein remained under negative selection or relaxed negative selection. WAP65-1 is functionally more distinct from the ancestral protein function than WAP65-2. HPX is phylogenetically closer to WAP65-2 but even so functional divergence was detected between both proteins. In addition, HPX showed a fast rate of evolution when compared with both WAP65-1 and WAP65-2 genes. The assessed 3-dimensional (3-D) structure of WAP65-1 and WAP65-2 suggests that the functional differences detected are not causing noticeable structural changes in these proteins. However, such subtle changes between WAP65 paralogs may be important to understand the differential gene retention of both copies in 20 out of 30 teleosts species studied.

Published

2013

7. IMPACT: Integrated Multiprogram Platform for Analyses in ConTest

Author

Agostinho Antunes, Vitor Vasconcelos, Julien Y. Dutheil, Emanuel Maldonado, and Rute R. da Fonseca

Subjects

Multiple sequence alignment, Phylogenetic tree, Java, business.industry, Scale (chemistry), Computational Biology, Proteins, Biology, CONTEST, User-Computer Interface, Software, Genetics, Programming Languages, Amino Acid Sequence, Software engineering, business, Molecular Biology, computer, Genetics (clinical), Selection (genetic algorithm), Biotechnology, Graphical user interface, computer.programming_language

Abstract

In this paper, we introduce a new Graphical User Interface that estimates evolutionary rates on protein sequences by assessing changes in biochemical constraints. We describe IMPACT, a platform-independent (tested in Linux, Windows, and MacOS), easy to install software written in Java. IMPACT integrates the use of a built-in multiple sequence alignment editor, with programs that perform phylogenetic and protein structure analyses (ConTest, PhyML, ATV, and Jmol) allowing the user to quickly and efficiently perform evolutionary analyses on protein sequences, including the detection of selection (negative and positive) signatures at the amino acid scale, which can provide fundamental insight about species evolution and ecological fitness. IMPACT provides the user with a working platform that combines a number of bioinformatics tools and utilities in one place, transferring information directly among the various programs and therefore increasing the overall performance of evolutionary analyses on proteins.

Published

2011

8. ASSESSING THE TAXONOMIC STATUS OF THE PALAWAN PANGOLIN MANIS CULIONENSIS (PHOLIDOTA) USING DISCRETE MORPHOLOGICAL CHARACTERS

Author

Philippe Gaubert and Agostinho Antunes

Subjects

Early Pleistocene, Ecology, biology, Land bridge, Pangolin, Pholidota, biology.organism_classification, Manis culionensis, Sunda pangolin, Genetics, Animal Science and Zoology, Taxonomy (biology), Endemism, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

We use discrete morphological characters in a statistical framework to reassess the taxonomic status of the Palawan pangolin Manis culionensis relative to the Sunda pangolin M. javanica. We recommend that the 15 species-level traits previously proposed in the literature to distinguish the 2 pangolins be replaced by 5 newly defined diagnostic characters related to skull and external scales. Our study supports species-level partition between the Palawan and Sunda pangolins at a frequency of expected polymorphism threshold fixed to 0.10. Isolation through sea level rising (approximately 800,000–500,000 years ago) of proto-Palawan pangolins coming from Borneo through Early Pleistocene land bridges might have promoted the speciation of M. culionensis, a Palawan endemic species to be considered of high conservation concern.

Published

2005