Your search keyword '"Cebus genetics"' showing total 82 results

1. Chromatic discrimination in fixed saturation levels from tufted capuchin monkeys with different color vision genotypes.

Author

Meireles LKG, Miquilini L, Brito FAC, Rodrigues AR, Henriques LD, Hauzman E, Bonci DMO, Costa MF, de Faria Galvão O, Ventura DF, Goulart PRK, and Souza GS

Subjects

Animals, Color Perception physiology, Sapajus apella, Genotype, Cebus genetics, Platyrrhini, Color, Color Vision

Abstract

Recent research has proposed new approaches to investigate color vision in Old World Monkeys by measuring suprathreshold chromatic discrimination. In this study, we aimed to extend this approach to New World Monkeys with different color vision genotypes by examining their performance in chromatic discrimination tasks along different fixed chromatic saturation axes. Four tufted capuchin monkeys were included in the study, and their color vision genotypes were one classical protanope, one classical deuteranope, one non-classical protanope, and a normal trichromat. During the experiments, the monkeys were required to perform a chromatic discrimination task using pseudoisochromatic stimuli with varying target saturations of 0.06, 0.04, 0.03, and 0.02 u'v' units. The number of errors made by the monkeys along different chromatic axes was recorded, and their performance was quantified using the binomial probability of their hits during the tests. Our results showed that dichromatic monkeys made more errors near the color confusion lines associated with their specific color vision genotypes, while the trichromatic monkey did not demonstrate any systematic errors. At high chromatic saturation, the trichromatic monkey had significant hits in the chromatic axes around the 180° chromatic axis, whereas the dichromatic monkeys had errors in colors around the color confusion lines. At lower saturation, the performance of the dichromatic monkeys became more challenging to differentiate among the three types, but it was still distinct from that of the trichromatic monkey. In conclusion, our findings suggest that high saturation conditions can be used to identify the color vision dichromatic phenotype of capuchin monkeys, while low chromatic saturation conditions enable the distinction between trichromats and dichromats. These results extend the understanding of color vision in New World Monkeys and highlight the usefulness of suprathreshold chromatic discrimination measures in exploring color vision in non-human primates., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

2. Phylogeography, genetic diversity, and intraspecific genetic structure of the black-horned capuchin (Sapajus nigritus).

Author

Szynwelski BE, Mares-Guia MAMM, Filippis AMB, Gonçalves GL, Tokuda M, Wagner PGC, Wu S, Oliveira VP, Lima MGM, Lynch JW, and Freitas TRO

Subjects

Humans, Animals, Phylogeography, Phylogeny, Cebus genetics, Genetic Structures, Genetic Variation, Cebinae

Abstract

Recent molecular studies have clarified the overarching taxonomy of capuchin monkeys, but intraspecific genetic diversity remains unexplored for most capuchin species. One example is Sapajus nigritus, the southernmost capuchin monkey, found in Brazil and Argentina; its phenotypic diversity has been recognized as two geographic subspecies, but the intraspecific genetic structure of this taxon is poorly known. Here, we sampled across most of this species' geographic distribution, producing a newly sequenced data set for genetic analyses that included 78 individuals from 14 populations. We investigated the intraspecific diversity, genetic structure, and evolutionary history using three mitochondrial markers. Our results indicated that S. nigritus populations exhibited high levels of genetic structure. We found strong support for two monophyletic clades within this species with a deep phylogenetic split, and clear separation from other related taxa. Vicariance events seem to have played a prevalent role in shaping S. nigritus genetic differentiation. The Paraíba do Sul River may have driven the deep divergence between southern and northern clades, whereas the Tietê River may have had a weaker, more recent effect on the divergence of populations within the southern clade., (© 2023 Wiley Periodicals LLC.)

Published

2024

3. A New Assessment of Robust Capuchin Monkey ( Sapajus ) Evolutionary History Using Genome-Wide SNP Marker Data and a Bayesian Approach to Species Delimitation.

Author

Martins AB, Valença-Montenegro MM, Lima MGM, Lynch JW, Svoboda WK, Silva-Júnior JSE, Röhe F, Boubli JP, and Fiore AD

Subjects

Animals, Phylogeny, Bayes Theorem, Haplorhini, Cebus genetics, Sapajus

Abstract

Robust capuchin monkeys, Sapajus genus, are among the most phenotypically diverse and widespread groups of primates in South America, with one of the most confusing and often shifting taxonomies. We used a ddRADseq approach to generate genome-wide SNP markers for 171 individuals from all putative extant species of Sapajus to access their evolutionary history. Using maximum likelihood, multispecies coalescent phylogenetic inference, and a Bayes Factor method to test for alternative hypotheses of species delimitation, we inferred the phylogenetic history of the Sapajus radiation, evaluating the number of discrete species supported. Our results support the recognition of three species from the Atlantic Forest south of the São Francisco River, with these species being the first splits in the robust capuchin radiation. Our results were congruent in recovering the Pantanal and Amazonian Sapajus as structured into three monophyletic clades, though new morphological assessments are necessary, as the Amazonian clades do not agree with previous morphology-based taxonomic distributions. Phylogenetic reconstructions for Sapajus occurring in the Cerrado, Caatinga, and northeastern Atlantic Forest were less congruent with morphology-based phylogenetic reconstructions, as the bearded capuchin was recovered as a paraphyletic clade, with samples from the Caatinga biome being either a monophyletic clade or nested with the blond capuchin monkey.

Published

2023

4. Mapping Retrotransposon LINE-1 Sequences into Two Cebidae Species and Homo sapiens Genomes and a Short Review on Primates.

Author

Milioto V, Perelman PL, Paglia L, Biltueva L, Roelke M, and Dumas F

Subjects

Animals, Humans, Retroelements genetics, Karyotyping, Cebus genetics, X Chromosome, Long Interspersed Nucleotide Elements genetics, Cebidae genetics

Abstract

This work focuses on the distribution of LINE-1 (a Long Interspersed Nuclear Element) in primates and its role during evolution and as a constituent of the architecture of primate genomes. To pinpoint the LINE-1 repeat distribution and its role among primates, LINE-1 probes were mapped onto chromosomes of Homo sapiens (Hominidae, Catarrhini), Sapajus apella , and Cebus capucinus (Cebidae, Platyrrhini) using fluorescence in situ hybridisation (FISH). The choice of platyrrhine species are due to the fact they are taxa characterised by a high level of rearrangements; for this reason, they could be a useful model for the study of LINE-1 and chromosome evolution. LINE-1 accumulation was found in the two Cebidae at the centromere of almost all acrocentric chromosomes 16-22 and on some bi-armed chromosomes. LINE-1 pattern was similar in the two species but only for chromosomes 6, 8, 10, and 18, due to intrachromosomal rearrangements in agreement with what was previously hypothesised as through g banding. LINE-1 interstitial accumulation was found in humans on the 1, 8, 9, 13-15, and X chromosomes; on chromosomes 8, 9, and 13-15, the signal was also at the centromeric position. This is in agreement with recent and complete molecular sequence analysis of human chromosomes 8 and some acrocentric ones. Thus, the hypothesis regarding a link between LINE-1 and centromeres as well as a link with rearrangements are discussed. Indeed, data analysis leads us to support a link between LINE-1 and inter- and intrachromosomal rearrangements, as well as a link between LINE-1 and structural functions at centromeres in primates., Competing Interests: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript; or in the decision to publish the results.

Published

2022

5. Signatures of adaptive evolution in platyrrhine primate genomes.

Author

Byrne H, Webster TH, Brosnan SF, Izar P, and Lynch JW

Subjects

Animals, Brain anatomy & histology, Brain growth & development, Cebus anatomy & histology, Cebus genetics, Cebus physiology, Cebus psychology, Cognition, Hominidae physiology, Hominidae psychology, Intelligence genetics, Longevity genetics, Phylogeny, Reproduction genetics, Saimiri anatomy & histology, Saimiri genetics, Saimiri physiology, Saimiri psychology, Selection, Genetic, Tool Use Behavior, Biological Evolution, Cebidae anatomy & histology, Cebidae classification, Cebidae genetics, Cebidae physiology, Genome genetics, Genomics

Abstract

The platyrrhine family Cebidae (capuchin and squirrel monkeys) exhibit among the largest primate encephalization quotients. Each cebid lineage is also characterized by notable lineage-specific traits, with capuchins showing striking similarities to Hominidae such as high sensorimotor intelligence with tool use, advanced cognitive abilities, and behavioral flexibility. Here, we take a comparative genomics approach, performing genome-wide tests for positive selection across five cebid branches, to gain insight into major periods of cebid adaptive evolution. We uncover candidate targets of selection across cebid evolutionary history that may underlie the emergence of lineage-specific traits. Our analyses highlight shifting and sustained selective pressures on genes related to brain development, longevity, reproduction, and morphology, including evidence for cumulative and diversifying neurobiological adaptations across cebid evolution. In addition to generating a high-quality reference genome assembly for robust capuchins, our results lend to a better understanding of the adaptive diversification of this distinctive primate clade.

Published

2022

6. Recently Integrated Alu Elements in Capuchin Monkeys: A Resource for Cebus / Sapajus Genomics.

Author

Storer JM, Walker JA, Rockwell CE, Mores G, Beckstrom TO, Orkin JD, Melin AD, Phillips KA, Roos C, and Batzer MA

Subjects

Alu Elements genetics, Animals, Genomics, Phylogeny, Cebus anatomy & histology, Cebus genetics, Sapajus

Abstract

Capuchins are platyrrhines (monkeys found in the Americas) within the Cebidae family. For most of their taxonomic history, the two main morphological types of capuchins, gracile (untufted) and robust (tufted), were assigned to a single genus, Cebus . Further, all tufted capuchins were assigned to a single species, Cebus apella , despite broad geographic ranges spanning Central and northern South America. In 2012, tufted capuchins were assigned to their genus, Sapajus , with eight currently recognized species and five Cebus species, although these numbers are still under debate. Alu retrotransposons are a class of mobile element insertion (MEI) widely used to study primate phylogenetics. However, Alu elements have rarely been used to study capuchins. Recent genome-level assemblies for capuchins ( Cebus imitator ; [Cebus_imitator_1.0] and Sapajus apella [GSC_monkey_1.0]) facilitated large scale ascertainment of young lineage-specific Alu insertions. Reported here are 1607 capuchin specific and 678 Sapajus specific Alu insertions along with candidate oligonucleotides for locus-specific PCR assays for many elements. PCR analyses identified 104 genus level and 51 species level Alu insertion polymorphisms. The Alu datasets reported in this study provide a valuable resource that will assist in the classification of archival samples lacking phenotypic data and for the study of capuchin phylogenetic relationships.

Published

2022

7. Major histocompatibility complex class II DR and DQ evolution and variation in wild capuchin monkey species (Cebinae).

Author

Buckner JC, Jack KM, Melin AD, Schoof VAM, Gutiérrez-Espeleta GA, Lima MGM, and Lynch JW

Subjects

Alleles, Amino Acid Sequence genetics, Animals, Cebus genetics, Costa Rica, Genes, MHC Class II genetics, Genes, MHC Class II immunology, HLA-DQ Antigens immunology, HLA-DR Antigens immunology, Humans, Phylogeny, Polymorphism, Genetic immunology, Cebus immunology, Evolution, Molecular, HLA-DQ Antigens genetics, HLA-DR Antigens genetics

Abstract

The major histocompatibility complex (MHC) is an important gene complex contributing to adaptive immunity. Studies of platyrrhine MHC have focused on identifying experimental models of immune system function in the equivalent Human Leukocyte Antigen (HLA). These genes have thus been explored primarily in captive platyrrhine individuals from research colonies. However, investigations of standing MHC variation and evolution in wild populations are essential to understanding its role in immunity, sociality and ecology. Capuchins are a promising model group exhibiting the greatest habitat diversity, widest diet breadth and arguably the most social complexity among platyrrhines, together likely resulting in varied immunological challenges. We use high-throughput sequencing to characterize polymorphism in four Class II DR and DQ exons for the first time in seven capuchin species. We find evidence for at least three copies for DQ genes and at least five for DRB, with possible additional unrecovered diversity. Our data also reveal common genotypes that are inherited across our most widely sampled population, Cebus imitator in Sector Santa Rosa, Costa Rica. Notably, phylogenetic analyses reveal that platyrrhine DQA sequences form a monophyletic group to the exclusion of all Catarrhini sequences examined. This result is inconsistent with the trans-species hypothesis for MHC evolution across infraorders in Primates and provides further evidence for the independent origin of current MHC genetic diversity in Platyrrhini. Identical allele sharing across cebid species, and more rarely genera, however, does underscore the complexity of MHC gene evolution and the need for more comprehensive assessments of allelic diversity and genome structure., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

8. Assessment of genetic variability in captive capuchin monkeys (Primates: Cebidae).

Author

Nieves M, Remis MI, Sesarini C, Hassel DL, Argüelles CF, and Mudry MD

Subjects

Animals, Argentina, DNA, Mitochondrial genetics, Evolution, Molecular, Heterochromatin genetics, Karyotype, Phylogeography, Cebus genetics, Polymorphism, Genetic

Abstract

Capuchin monkeys (genera Cebus and Sapajus) show a wide range distribution, from Honduras to Argentina. The aim of this work was to evaluate the genetic and phenotypic variability of captive specimens putatively belonging to S. cay (SCY) and S. nigritus (SNI) at their southernmost distribution limit. Forty-four individuals held in five captive centers from Argentina were analyzed based on external morphology, karyology and DNA sequences of mitochondrial control region (mtDNA-CR). Three morphotypes associated with their probable geographical origin in SCY and a single morphotype in SNI were found. For SCY we could associate each morphotype with the most frequent karyotype. SNI showed a single phenotype and a homogenous karyotype. Heterochromatin showed geographical patterns within species. A 515-bp mtDNA-CR fragment was sequenced, defining fourteen haplotypes at 59 polymorphic sites. A network constructed with our 14 haplotypes and other 77 from S. apella, S. macrocephalus, S. cay and S. nigritus from bibliography revealed some phylogeographic signals. Our SCY and SNI samples rendered four groups that differed in multiple mutational steps, with SCY being more similar to S. apella than to S. macrocephalus. Also, we identified two genetic divergent SCY groups: samples from NOA and from NEA with high mitochondrial diversity. Our results highlight the relevance of using complementary genetic tools throughout the distribution ranges of SCY and SNI for a better assessment of their diversity.

Published

2021

9. The genomics of ecological flexibility, large brains, and long lives in capuchin monkeys revealed with fecalFACS.

Author

Orkin JD, Montague MJ, Tejada-Martinez D, de Manuel M, Del Campo J, Cheves Hernandez S, Di Fiore A, Fontsere C, Hodgson JA, Janiak MC, Kuderna LFK, Lizano E, Martin MP, Niimura Y, Perry GH, Valverde CS, Tang J, Warren WC, de Magalhães JP, Kawamura S, Marquès-Bonet T, Krawetz R, and Melin AD

Subjects

Animals, Evolution, Molecular, Flow Cytometry methods, Forests, Genomics methods, Adaptation, Physiological, Brain growth & development, Cebus genetics, Genome, Longevity genetics

Abstract

Ecological flexibility, extended lifespans, and large brains have long intrigued evolutionary biologists, and comparative genomics offers an efficient and effective tool for generating new insights into the evolution of such traits. Studies of capuchin monkeys are particularly well situated to shed light on the selective pressures and genetic underpinnings of local adaptation to diverse habitats, longevity, and brain development. Distributed widely across Central and South America, they are inventive and extractive foragers, known for their sensorimotor intelligence. Capuchins have among the largest relative brain size of any monkey and a lifespan that exceeds 50 y, despite their small (3 to 5 kg) body size. We assemble and annotate a de novo reference genome for Cebus imitator Through high-depth sequencing of DNA derived from blood, various tissues, and feces via fluorescence-activated cell sorting (fecalFACS) to isolate monkey epithelial cells, we compared genomes of capuchin populations from tropical dry forests and lowland rainforests and identified population divergence in genes involved in water balance, kidney function, and metabolism. Through a comparative genomics approach spanning a wide diversity of mammals, we identified genes under positive selection associated with longevity and brain development. Additionally, we provide a technological advancement in the use of noninvasive genomics for studies of free-ranging mammals. Our intra- and interspecific comparative study of capuchin genomics provides insights into processes underlying local adaptation to diverse and physiologically challenging environments, as well as the molecular basis of brain evolution and longevity., Competing Interests: The authors declare no competing interest., (Copyright © 2021 the Author(s). Published by PNAS.)

Published

2021

10. The mystery of the origins of Cebus albifrons malitiosus and Cebus albifrons hypoleucus: mitogenomics and microsatellite analyses revealed an amazing evolutionary history of the Northern Colombian white-fronted capuchins.

Author

Ruiz-García M, Sánchez-Castillo S, Castillo MI, Luengas K, Ortega JM, Leguizamon N, Bello A, and Mark Shostell J

Subjects

Animals, Colombia, Cebus classification, Cebus genetics, Genome, Mitochondrial genetics, Microsatellite Repeats genetics, Phylogeny

Abstract

Knowledge of the genetic units of species is fundamental to the conservation of biodiversity. This is true for all regions, including the Neotropics where the Earth has its greatest diversity, including roughly 34% of primate species, a group that has almost 60% of its taxa threatened with extinction. The untufted (gracile) capuchins are medium-sized Neotropical primates, traditionally classified in four species: Cebus albifrons, C. capucinus, C. olivaceus, and C. kaapori. They have a very confusing intra-specific systematics with a large number of fragmented and isolated populations throughout their geographical distributions. We sequenced a large sample of gracile capuchins, including all of the recognized species, to offset the paucity of phylogenic and phylogeographic data regarding this group and to try to understand their phylogeny and evolution. A set of 189 gracile and robust capuchins were sequenced for their mitogenomes whereas another set of 394 gracile and robust capuchins were sequenced at two individual mitochondrial genes (mtCOI-COII). Additionally, 41 Colombian gracile capuchins were geno typified at eight nuclear DNA microsatellites. Our main findings are as follows: (1) Nineteen different groups of gracile capuchin were detected with the mitogenomics data set and more than twenty significant groups and sub-groups were identified with the mtCOI-COII genes; (2) The temporal splits of the older gracile capuchin haplogroups expanded between 2 and 4 million years ago (MYA), during the Pliocene; (3) The two most northern taxa of Colombian C. albifrons (malitiosus and hypoleucus) are the same taxon (C. a. hypoleucus) as was claimed by Cabrera. This taxon represents an old colonization event from the Amazon to current northern Colombia. It is intensely hybridized (evidence from both mitochondrial and nuclear genes) with a haplogroup of C. capucinus (H3) and also has an influx of robust capuchins; (4) Three different and independent migrations of C. albifrons from the Amazon arrived to northern Colombia giving rise to C. a. hypoleucus (including malitiosus), C. a versicolor (including leucocephalus, cesarae, and pleei), and C. a. adustus; (5) On the Caribbean island of Trinidad, two different gracile capuchin taxa exist, one autochthonous, which could correspond to a fourth migration into northwestern South America (C. a. trinitatis) and probably another one, introduced more recently (C. olivaceus brunneus); (6) The values of the genetic distance analyses, the inexistence of reciprocal mitochondrial monophylia for many clades of gracile capuchins and the strong hybridization detected with nuclear microsatellites, especially among hypoleucus (malitiosus), C. capucinus-H3, versicolor, and cesarae, support that all the gracile capuchins belong to one unique superspecies: C. capucinus (senior name for all the gracile capuchins).

Published

2019

11. A phylogenomic perspective on the robust capuchin monkey (Sapajus) radiation: First evidence for extensive population admixture across South America.

Author

Lima MGM, Silva-Júnior JSE, Černý D, Buckner JC, Aleixo A, Chang J, Zheng J, Alfaro ME, Martins A, Di Fiore A, Boubli JP, and Lynch Alfaro JW

Subjects

Animals, Calibration, Cebinae, Ecosystem, Genetics, Population, Geography, Likelihood Functions, Polymorphism, Single Nucleotide genetics, South America, Cebus classification, Cebus genetics, Gene Pool, Genomics, Phylogeny

Abstract

Phylogenetic relationships amongst the robust capuchin monkeys (genus Sapajus) are poorly understood. Morphology-based taxonomies have recognized anywhere from one to twelve different species. The current IUCN (2017) classification lists eight robust capuchins: S. xanthosternos, S. nigritus, S. robustus, S. flavius, S. libidinosus, S. cay, S. apella and S. macrocephalus. Here, we assembled the first phylogenomic data set for Sapajus using ultra-conserved elements (UCEs) to reconstruct a capuchin phylogeny. All phylogenomic analyses strongly supported a deep divergence of Sapajus and Cebus clades within the capuchin monkeys, and provided support for Sapajus nigritus, S. robustus and S. xanthosternos as distinct species. However, the UCE phylogeny lumped the putative species S. cay, S. libidinosus, S. apella, S. macrocephalus, and S. flavius together as a single widespread lineage. A SNP phylogeny constructed from the UCE data was better resolved and recovered S. flavius and S. libidinosus as sister species; however, S. apella, S. macrocephalus, and S. cay individuals were recovered in two geographic clades, from northeastern and southwestern Amazon, rather than clustering by currently defined morphospecies. STRUCTURE analysis of population clustering revealed widespread admixture among Sapajus populations within the Amazon and even into the Cerrado and Atlantic Forest. Difficulty in assigning species by morphology may be a result of widespread population admixture facilitated through frequent movement across major rivers and even ecosystems by robust capuchin monkeys., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

12. Association between Genomic Instability and Evolutionary Chromosomal Rearrangements in Neotropical Primates.

Author

Puntieri F, Andrioli NB, and Nieves M

Subjects

Animals, Chromosome Breakage, Chromosomes genetics, Female, Male, Alouatta genetics, Atelinae genetics, Cebus genetics, Evolution, Molecular, Gene Rearrangement, Genomic Instability, Sister Chromatid Exchange

Abstract

During the last decades, the mammalian genome has been proposed to have regions prone to breakage and reorganization concentrated in certain chromosomal bands that seem to correspond to evolutionary breakpoints. These bands are likely to be involved in chromosome fragility or instability. In Primates, some biomarkers of genetic damage may be associated with various degrees of genomic instability. Here, we investigated the usefulness of Sister Chromatid Exchange as a biomarker of potential sites of frequent chromosome breakage and rearrangement in Alouatta caraya, Ateles chamek, Ateles paniscus, and Cebus cay. These Neotropical species have particular genomic and chromosomal features allowing the analysis of genomic instability for comparative purposes. We determined the frequency of spontaneous induction of Sister Chromatid Exchanges and assessed the relationship between these and structural rearrangements implicated in the evolution of the primates of interest. Overall, A. caraya and C. cay presented a low proportion of statistically significant unstable bands, suggesting fairly stable genomes and the existence of some kind of protection against endogenous damage. In contrast, Ateles showed a highly significant proportion of unstable bands; these were mainly found in the rearranged regions, which is consistent with the numerous genomic reorganizations that might have occurred during the evolution of this genus.

Published

2018

13. Evidence of a Conserved Molecular Response to Selection for Increased Brain Size in Primates.

Author

Boddy AM, Harrison PW, Montgomery SH, Caravas JA, Raghanti MA, Phillips KA, Mundy NI, and Wildman DE

Subjects

Animals, Brain physiology, Cebus genetics, Genetic Association Studies, Humans, Phylogeny, Primates genetics, Selection, Genetic, Species Specificity, Biological Evolution, Brain anatomy & histology, Cebus anatomy & histology, Primates anatomy & histology

Abstract

The adaptive significance of human brain evolution has been frequently studied through comparisons with other primates. However, the evolution of increased brain size is not restricted to the human lineage but is a general characteristic of primate evolution. Whether or not these independent episodes of increased brain size share a common genetic basis is unclear. We sequenced and de novo assembled the transcriptome from the neocortical tissue of the most highly encephalized nonhuman primate, the tufted capuchin monkey (Cebus apella). Using this novel data set, we conducted a genome-wide analysis of orthologous brain-expressed protein coding genes to identify evidence of conserved gene-phenotype associations and species-specific adaptations during three independent episodes of brain size increase. We identify a greater number of genes associated with either total brain mass or relative brain size across these six species than show species-specific accelerated rates of evolution in individual large-brained lineages. We test the robustness of these associations in an expanded data set of 13 species, through permutation tests and by analyzing how genome-wide patterns of substitution co-vary with brain size. Many of the genes targeted by selection during brain expansion have glutamatergic functions or roles in cell cycle dynamics. We also identify accelerated evolution in a number of individual capuchin genes whose human orthologs are associated with human neuropsychiatric disorders. These findings demonstrate the value of phenotypically informed genome analyses, and suggest at least some aspects of human brain evolution have occurred through conserved gene-phenotype associations. Understanding these commonalities is essential for distinguishing human-specific selection events from general trends in brain evolution., (© The Author(s) 2017. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2017

14. Chapparvoviruses occur in at least three vertebrate classes and have a broad biogeographic distribution.

Author

Souza WM, Romeiro MF, Fumagalli MJ, Modha S, de Araujo J, Queiroz LH, Durigon EL, Figueiredo LTM, Murcia PR, and Gifford RJ

Subjects

Animals, Canaries genetics, Canaries virology, Cebus genetics, Cebus virology, Chiroptera genetics, Chiroptera virology, Computer Simulation, Evolution, Molecular, Gene Order, Genome, Viral, Metagenomics, Phylogeny, Phylogeography, Parvovirinae classification, Parvovirinae genetics, Vertebrates genetics, Vertebrates virology

Abstract

Chapparvoviruses are a highly divergent group of parvoviruses (family Parvoviridae) that have recently been identified via metagenomic sampling of animal faeces. Here, we report the sequences of six novel chapparvoviruses identified through both metagenomic sampling of bat tissues and in silico screening of published vertebrate genome assemblies. The novel chapparvoviruses share several distinctive genomic features and group together as a robustly supported monophyletic clade in phylogenetic trees. Our data indicate that chapparvoviruses have a broad host range in vertebrates and a global distribution.

Published

2017

15. Inbreeding avoidance and female mate choice shape reproductive skew in capuchin monkeys (Cebus capucinus imitator).

Author

Wikberg EC, Jack KM, Fedigan LM, Campos FA, Yashima AS, Bergstrom ML, Hiwatashi T, and Kawamura S

Subjects

Animals, Cebus genetics, Costa Rica, Female, Male, Philippines, Cebus physiology, Inbreeding, Reproduction, Sexual Behavior, Animal

Abstract

Reproductive skew in multimale groups may be determined by the need for alpha males to offer reproductive opportunities as staying incentives to subordinate males (concessions), by the relative fighting ability of the alpha male (tug-of-war) or by how easily females can be monopolized (priority-of-access). These models have rarely been investigated in species with exceptionally long male tenures, such as white-faced capuchins, where female mate choice for novel unrelated males may be important in shaping reproductive skew. We investigated reproductive skew in white-faced capuchins at Sector Santa Rosa, Costa Rica, using 20 years of demographic, behavioural and genetic data. Infant survival and alpha male reproductive success were highest in small multimale groups, which suggests that the presence of subordinate males can be beneficial to the alpha male, in line with the concession model's assumptions. None of the skew models predicted the observed degree of reproductive sharing, and the probability of an alpha male producing offspring was not affected by his relatedness to subordinate males, whether he resided with older subordinate males, whether he was prime aged, the number of males or females in the group or the number of infants conceived within the same month. Instead, the alpha male's probability of producing offspring decreased when he was the sire of the mother, was weak and lacked a well-established position and had a longer tenure. Because our data best supported the inbreeding avoidance hypothesis and female choice for strong novel mates, these hypotheses should be taken into account in future skew models., (© 2016 John Wiley & Sons Ltd.)

Published

2017

16. Transferability of microsatellites for studies on the social behavior of the tufted capuchin monkey (genus Sapajus).

Author

Tokuda M, Martins MM, and Izar P

Subjects

Animals, Brazil, Cebus genetics, Gene Transfer Techniques, Microsatellite Repeats genetics, Social Behavior

Abstract

Because of relevant results that indicated that molecular techniques can provide increased knowledge of animal social systems, they usually complement observational field studies. Despite the great utility of microsatellites, they are not available for all species. Gathering genetic information using microsatellites that were originally designed for other species is a time-saving procedure. The aim of this study was to test the transferability of microsatellites and their usefulness in studies of social behavior of black capuchin monkeys (Sapajus nigritus). We noninvasively sampled adult and subadult black capuchins of three wild groups in southeastern Brazil. Seventeen microsatellites, which were previously designed for and successfully amplified in multiple Neotropical primate species, were tested. Nine of the 17 microsatellite loci tested produced an average of 6.22 alleles (range 2-12) per locus. The allelic richness and the expected heterozygosity for all loci was 5.93 and 0.70, respectively. The combined non-exclusion probability for one candidate parent across all loci was 0.01. The nine microsatellite loci optimized in this study have a great potential for application in studies of social structure and dispersal patterns in S. nigritus populations and in other Neotropical primate species.

Published

2014

17. Color discrimination in the tufted capuchin monkey, Sapajus spp.

Author

Goulart PR, Bonci DM, Galvão Ode F, Silveira LC, and Ventura DF

Subjects

Absorption, Animals, Behavior, Animal physiology, Cebus genetics, Color, Cone Opsins metabolism, Female, Genotype, Male, Phenotype, Photic Stimulation, Retinal Cone Photoreceptor Cells metabolism, Sensory Thresholds physiology, Spectrum Analysis, Cebus physiology, Color Perception physiology, Color Vision physiology, Discrimination, Psychological physiology

Abstract

The present study evaluated the efficacy of an adapted version of the Mollon-Reffin test for the behavioral investigation of color vision in capuchin monkeys. Ten tufted capuchin monkeys (Sapajus spp., formerly referred to as Cebus apella) had their DNA analyzed and were characterized as the following: one trichromat female, seven deuteranope dichromats (six males and one female), and two protanope males, one of which was identified as an "ML protanope." For their behavioral characterization, all of the subjects were tested at three regions of the Commission International de l'Eclairage (CIE) 1976 u'v' diagram, with each test consisting of 20 chromatic variation vectors that were radially distributed around the chromaticity point set as the test background. The phenotypes inferred from the behavioral data were in complete agreement with those predicted from the genetic analysis, with the threshold distribution clearly differentiating between trichromats and dichromats and the estimated confusion lines characteristically converging for deuteranopes and the "classic" protanope. The discrimination pattern of the ML protanope was intermediate between protan and deutan, with confusion lines horizontally oriented and parallel to each other. The observed phenotypic differentiation confirmed the efficacy of the Mollon-Reffin test paradigm as a useful tool for evaluating color discrimination in nonhuman primates. Especially noteworthy was the demonstration of behavioral segregation between the "classic" and "ML" protanopes, suggesting identifiable behavioral consequences of even slight variations in the spectral sensitivity of M/L photopigments in dichromats.

Published

2013

18. Monomorphic region of the serotonin transporter promoter gene in New World monkeys.

Author

Pascale E, Lucarelli M, Passarelli F, Butler RH, Tamellini A, Addessi E, Visalberghi E, Manciocco A, Vitale A, and Laviola G

Subjects

Animals, Base Sequence, Conserved Sequence, Female, Humans, Male, Molecular Sequence Data, Promoter Regions, Genetic, Callithrix genetics, Cebus genetics, Serotonin Plasma Membrane Transport Proteins genetics

Abstract

Genetic variation in the human serotonin system has long been studied because of its functional consequences and links to various neuropsychiatric and behavior-related disorders. Among non-human primates, the common marmosets (Callithrix jacchus) and tufted capuchins monkeys (Cebus apella) are becoming increasingly used as models to study the effects of genes, environments, and their interaction on physiology and complex behavior. In order to investigate the independent functions of and potential interactions between serotonin-related genes, anxiety and neuropsychiatric disorders, we analyzed the presence and variability of the serotonin transporter gene-linked polymorphic region (5-HTTLPR) in marmoset and capuchin monkeys. By PCR and using heterologous primers from the human sequence, we amplified and then sequenced the corresponding 5-HTT region in marmosets and capuchins. The resulting data revealed the presence of a tandem repeat sequence similar to that described in humans, but unlike humans and other Old World primates, no variable length alleles were detected in these New World monkeys, suggesting that if serotonin transporter is involved in modulating behavior in these animals it does so through different molecular mechanisms., (© 2012 Wiley Periodicals, Inc.)

Published

2012

19. Molecular systematics and phylogeography of Cebus capucinus (Cebidae, Primates) in Colombia and Costa Rica by means of the mitochondrial COII gene.

Author

Ruiz-Garcia M, Castillo MI, Ledezma A, Leguizamon N, Sánchez R, Chinchilla M, and Gutierrez-Espeleta GA

Subjects

Animals, Colombia, Costa Rica, Molecular Sequence Data, Phylogeography, Cebus classification, Cebus genetics, Electron Transport Complex IV genetics, Genes, Mitochondrial genetics, Phylogeny

Abstract

We propose the first molecular systematic hypothesis for the origin and evolution of Cebus capucinus based on an analysis of 710 base pairs (bp) of the cytochrome c oxidase subunit II (COII) mitochondrial gene in 121 C. capucinus specimens sampled in the wild. The animals came from the borders of Guatemala and Belize, Costa Rica, and eight different departments of Colombia (Antioquia, Chocó, Sucre, Bolivar, Córdoba, Magdalena, Cauca, and Valle del Cauca). Three different and significant haplotype lineages were found in Colombia living sympatrically in the same departments. They all presented high levels of gene diversity but the third Colombian gene pool was determined likely to be the most ancestral lineage. The second Colombian mitochondrial (mt) haplogroup is likely the source of origin of the unique Central America mt haplogroup that was detected. Our molecular population genetics data do not agree with the existence of two well-defined subspecies in Central America (limitaneus and imitator). This Central America mt haplogroup showed significantly less genetic diversity than the Colombian mt haplogroups. All the C. capucinus analyzed showed evidence of historical population expansions. The temporal splits among these four C. capucinus lineages were related to the completion of the Panamanian land bridge as well as to climatic changes during the Quaternary Period., (© 2011 Wiley Periodicals, Inc.)

Published

2012

20. Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys.

Author

Boubli JP, Rylands AB, Farias IP, Alfaro ME, and Alfaro JL

Subjects

Animals, Genes, Mitochondrial genetics, Molecular Sequence Data, Pigmentation, Cebus classification, Cebus genetics, Genetic Variation

Abstract

The untufted, or gracile, capuchin monkeys are currently classified in four species, Cebus albifrons, C. capucinus, C. olivaceus, and C. kaapori, with all but C. kaapori having numerous described subspecies. The taxonomy is controversial and their geographic distributions are poorly known. Cebus albifrons is unusual in its disjunct distribution, with a western and central Amazonian range, a separate range in the northern Andes in Colombia, and isolated populations in Trinidad and west of the Andes in Ecuador and northern Peru. Here we examine previous morphological and molecular hypotheses of the taxonomy and phylogeny of Cebus. We construct a time-calibrated phylogeny based upon mitochondrial DNA sequences from 50 Cebus samples from across their range. Our data indicate that untufted capuchins underwent a radiation at about 2 Ma, and quickly diversified in both the Andes and the Amazon. We provide a provisional reassessment for the taxonomy of untufted capuchins in the Amazon, the Llanos, the Andes, Trinidad, and Central America, splitting currently paraphyletic taxa into several species, including: at least two Amazonian species (C. yuracus and C. unicolor); a species from the Guiana Shield (most likely the same as Humboldt's C. albifrons); two northern Andean species, C. versicolor, C. cesarae; C. brunneus (with trinitatis a junior synonym) on the Venezuelan coast, and C. adustus in the region of Lake Maracaibo; C. capucinus in northwestern Ecuador and Colombia, and Panama; C. imitator in Central America; C. olivaceus and C. castaneus occupying a large part of the Guiana Shield; and C. kaapori in the eastern Amazon, south of the Rio Amazonas. More intensive and extensive geographic sampling is needed, including that for some subspecies not represented here. Taxa from the southwestern Amazon (yuracus, cuscinus, and unicolor) and the phylogenetic position of Humboldt's Simia albifrons from the Orinoco remain particularly poorly defined., (© 2012 Wiley Periodicals, Inc.)

Published

2012

21. Introduction to special issue on capuchin evolution: comparing behavior, morphology, and genetics across species.

Author

Garber PA

Subjects

Animals, Cebus classification, Cebus genetics, Species Specificity, Behavior, Animal, Biological Evolution, Cebus anatomy & histology, Cebus physiology

Published

2012

22. Molecular relationships and classification of several tufted capuchin lineages (Cebus apella, Cebus xanthosternos and Cebus nigritus, Cebidae), by means of mitochondrial cytochrome oxidase II gene sequences.

Author

Ruiz-García M, Castillo MI, Lichilín-Ortiz N, and Pinedo-Castro M

Subjects

Animals, Base Sequence, Bayes Theorem, DNA Primers genetics, Electron Transport Complex IV genetics, Likelihood Functions, Models, Genetic, Molecular Sequence Data, Phylogeography, Sequence Analysis, DNA, South America, Species Specificity, Cebus classification, Cebus genetics, Demography, Genetic Variation, Phylogeny

Abstract

The morphological systematics of the tufted capuchins is confusing. In an attempt to clarify the complex systematics and phylogeography of this taxon, we provide a first molecular analysis. We obtained mitochondrial cytochrome oxidase II (mtCOII) gene sequences from 49 tufted capuchins that had exact geographic origins from diverse lineages in Colombia, Peru, Bolivia, French Guyana, Brazil, Argentina and Paraguay and that belonged to clearly recognized morphological taxa. This project had 4 main findings: (1) we determined 2 established and related taxa in the northern Amazon River area, which we named C. a. apella and C. a. fatuellus. C. a. apella is distributed from French Guyana until, at least, the Negro River in the northern Brazilian Amazon, whereas C. a. fatuellus is distributed throughout the Colombian Eastern Llanos and the northern Colombian Amazon. We also determined 2 other southern C. apella taxa, which we named C. a. macrodon and C. a. cay. C. a. macrodon has a western and southern Amazon distribution, while C. a. cay has a more southern distribution outside the Amazon basin. (2) In the upper Amazon basin, there is a unique lineage (C. a. macrocephalus) with 1 widely distributed haplotype. The 4 morphological subspecies (C. a. maranonis, C. a. macrocephalus, C. a. peruanus, C. a. pallidus), and maybe a fifth unknown subspecies, described in this area were molecularly undifferentiated at least for the mitochondrial gene analyzed. (3) Our molecular analysis determined that 1 individual of C. robustus fell into the lineage of C. a. macrocephalus. Therefore, this form does not receive any specific name. (4) The animals classified a priori as C. nigritus and C. xanthosternos (because of their morphological phenotypes and by their geographical origins) were clearly differentiated from the other specimens analyzed with the molecular marker employed. Therefore, we consider that these 2 lineages could be assigned the status of full species following the biological species definition. (5) In 2001, Groves described 4 tufted capuchin species (C. apella, C. libidinosus, C. nigritus and C. xanthosternos), while Silva Jr. determined 7 species (C. apella, C. macrocephalus, C. libidinosus, C. cay, C. nigritus, C. robustus and C. xanthosternos). The tests of Swofford-Olsen-Waddell-Hillis, of Shimodaira and Hasegawa and of Templeton did not fit with either of these two classificatory schemes, although Groves' scheme was better with regard to our data than that of Silva Jr. (6) All the temporal splits among the tufted capuchin taxa studied were estimated to have occurred during the last phase of the Pleistocene by using the ρ statistic applied to the median joining haplotype network., (Copyright © 2012 S. Karger AG, Basel.)

Published

2012

23. Analysis of the heterochromatin of Cebus (Primates, Platyrrhini) by micro-FISH and banding pattern comparisons.

Author

Nieves M, De Oliveira EH, Amaral PJ, Nagamachi CY, Pieczarka JC, Mühlmann MC, and Mudry MD

Subjects

Animals, Chromosome Banding, In Situ Hybridization, Fluorescence, Karyotyping, Microdissection, Repetitive Sequences, Nucleic Acid, Cebus genetics, Chromosomes genetics, Heterochromatin genetics

Abstract

The karyotype of the neotropical primate genus Cebus (Platyrrhini: Cebidae), considered the most ancestral one, shows the greatest amount of heterochromatin described among Platyrrhini genera. Banding techniques and restriction enzyme digestion have previously revealed great variability of quantity and composition of heterochromatin in this genus. In this context, we use fluorescence in situ hybridization (FISH) to analyse this genomic region and discuss its possible role in the diversification of Cebus.We used a heterochromatin probe for chromosome 11 of Cebus libidinosus (11qHe+ CLI probe), obtained by chromosome microdissection. Twenty-six specimens belonging to the families Atelidae, Cebidae, Callitrichidae and Pithecidae (Platyrrhini) were studied. Fourteen out of 26 specimens were Cebus (Cebidae) individuals of C. libidinosus, C. xanthosternos, C. apella, C. nigritus, C. albifrons, C. kaapori and C. olivaceus. In Cebus specimens, we found 6 to 22 positive signals located in interstitial and telomeric positions along the different species. No hybridization signal was observed among the remaining Ceboidea species, thus reinforcing the idea of a Cebus-specific heterochromatin composed of a complex system of repetitive sequences.

Published

2011

24. Genome size of two cebus species (primates: platyrrhini) with a fertile hybrid and their quantitative genomic differences.

Author

Fantini L, Mudry MD, and Nieves M

Subjects

Animals, Cebus classification, Chimera genetics, Chromosome Banding, Chromosomes genetics, Crosses, Genetic, DNA analysis, DNA genetics, Female, Heterochromatin genetics, Karyotyping, Male, Repetitive Sequences, Nucleic Acid, Sample Size, Species Specificity, Cebus genetics, Chromosomes chemistry, Comparative Genomic Hybridization methods, Cytogenetics methods, Genome, Genomics methods, Heterochromatin chemistry

Abstract

Genome size or C-value is defined as the total amount of DNA contained within a haploid chromosome set and is regarded as a species-specific constant. Speciation among neotropical primates seems to be accompanied by marked quantitative changes in DNA content. A direct correlation between genome size and the presence of heterochromatin has also been proposed. In this work, we analyzed the genome of a female fertile hybrid between Cebus libidinosus and C. nigritus using interspecies comparative genomic hybridization (iCGH), in order to detect quantitative differences between the hybrid and the parental genomes. We also estimated the genome sizes of C. libidinosus and C. nigritus. Both species, considered subspecies of C. apella until 2001, have a highly homologous karyotype but are easily distinguishable at the chromosomal level due to the noncentromeric heterochromatin block on C. libidinosus chromosome 11. Our findings on C-value quantification support the species status for C. libidinosus and C. nigritus, each having a different genome size. The iCGH analysis of the hybrid revealed quantitative differences in comparison to both parental species. The hybrid genome contains a greater amount of DNA in the heterochromatic blocks related to those in the genomes of both parental species. In view of observations in previous and the present work, some hypotheses about genome dynamics of neotropical primates are proposed and discussed., (Copyright © 2011 S. Karger AG, Basel.)

Published

2011

25. Molecular genetic analysis of the yellow-breasted capuchin monkey: recommendations for ex situ conservation.

Author

Oliveira CG, Gaiotto FA, Costa MA, and Martinez RA

Subjects

Animals, Animals, Wild classification, Animals, Wild genetics, Brazil, Cebus classification, Conservation of Natural Resources, Trees, Cebus genetics, Genetic Variation genetics

Abstract

The yellow-breasted capuchin monkey, Cebus xanthosternos, is one of the most endangered species of the Brazilian Atlantic Forest. In situ conservation for this species is problematic due to habitat destruction; therefore, captive conservation has been considered as an alternative strategy. A Studbook for C. xanthosternos has been kept for more than 20 years; however, no genetic data has been collected. Our aim was to provide a preliminary assessment of the genetic variability of C. xanthosternos in captivity in Brazil and compare it with data from the wild. Microsatellite and mtDNA sequencing were carried out in 40 samples from five Brazilian institutions registered in the international Studbook and compared with 8 samples collected in a wild population from REBIO-Una/BA. DNA for analysis was extracted from hair, feces and blood. Our results showed that two of the five captive groups assessed had a genetic variability comparable to wild animals. However, the other three groups apparently require urgent management to improve its genetic variability. Considering that inbreeding effects are more pronounced in captivity due to lack of gene flow, our data indicate a need to increase population size by introducing newly rescued individuals into these captive groups. Our results are the first attempt to provide genetic information for captive C. xanthosternos in Brazil.

Published

2011

26. Molecular phylogenetics and phylogeography of the white-fronted capuchin (Cebus albifrons; Cebidae, Primates) by means of mtCOII gene sequences.

Author

Ruiz-García M, Castillo MI, Vásquez C, Rodriguez K, Pinedo-Castro M, Shostell J, and Leguizamon N

Subjects

Animals, Cebus classification, DNA, Mitochondrial genetics, Electron Transport Complex IV genetics, Genetic Variation, Genetics, Population, Models, Genetic, Sequence Analysis, DNA, South America, Cebus genetics, Phylogeny, Phylogeography

Abstract

A total of 696 base pairs (bp) of the mitochondrial COII gene were sequenced from 118 individuals of Cebus albifrons (plus an individual of Cebus olivaceus) sampled from diverse geographical areas of Colombia, Peru, Ecuador and Brazil. These animals represented all of the C. albifrons's taxa described by Hershkovitz (1949) in Colombia and Peru (10 out of 13 subspecies are described by this author). The sequences analyzed demonstrate the existence of three well defined groups in northern Colombia (trans-Andean): malitosus, versicolor-pleei-cesarae and leucocephalus. They arose from at least, three distinct migrations from different Amazonian groups. Five different Amazonian and Eastern Llanos C. albifrons's groups (I, II, III, IV, and V) were also found. In many Amazonian localities, some of these groups live in sympatry probably by secondary expansion after their respective formations. Amazonian group I is closely related to the versicolor-pleei-cesarae group, malitosus is closely related to Amazonian group V, while leucocephalus is closely related to Amazonian group IV. Nevertheless, our genetic analysis could not resolve the genetic relationships among the main C. albifrons groups. The ρ-statistic applied to the median-joining network yielded that the major part of the temporal splits estimated occurred in the Pleistocene, reinforcing the importance of the Pleistocene refugia during the evolution of C. albifrons., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

27. [Genetic methods for the reintroduction of primates Saguinus, Aotus and Cebus (Primates: Cebidae) seized in Bogota, Colombia].

Author

Ruiz-García M, Leguizamón N, Vásquez C, Rodríguez K, and Castillo MI

Subjects

Animals, Colombia, Phylogeny, Polymerase Chain Reaction veterinary, Aotidae genetics, Cebus genetics, DNA, Mitochondrial genetics, Electron Transport Complex IV genetics, Saguinus genetics

Abstract

Primates are one of more confiscated taxa by the environmental authorities in Bogota, Colombia. During 2008, 133 monkeys were confiscated; samples from 115 of them were sequenced by the mitochondrial cythocrome oxidase II gene (mtCOII) and 112 sequences obtained were of high quality. These sequences were compared with those obtained by our research group from individuals directly sampled in the field, with precise geographic origin. So, a more specific geographic area of the Colombian territory could be considered for a correct rehabilitation treatment during the reintroduction of these confiscated animals. The main results with five primate species were: 1--For all the specimens analyzed of Saguinus leucopus, they could be liberated in any geographical area of its distribution range, since only one gene pool was found. 2--For the 14 Aotus sp. individuals sequenced from the SDA (Environmental District Secretariat), one of them (A. vociferans) was coming from the Amazon, seven exemplars belonged to A. griseimembra from the Magdalena Valley and the Colombian Caribbean coasts, four individuals represented to A. brumbacki from the Colombian Eastern Llanos, and two were associated to A. azarae azarae from Northern Argentina and Paraguay (which means that illegal traffic of animals is arriving to Colombia from other South-American countries). 3--Out 14 Cebus albifrons sequenced, two belonged to the geographical area of C. a. versicolor, one to C. a. pleei, 10 to C a. leucocephalus and one could be not assigned because its sequence yielded a great genetic divergence with respect to the other specimens sequenced of this species. 4--The two Cebus capucinus sequenced showed to be associated to a gene pool found in the Northern of Chocó, Sucre and Córdoba Departments. 5--Out 11 Cebus apella sequenced, 10 showed to belong to the gene pool presented in the Colombian Eastern Llanos and highly related (but differentiable) to Cebus apella apella from the French Guyana. It could be named C. a. fatuellus sensu Groves (2001). One exemplar sequenced could be not related with the other C. apella analyzed, nor the related taxa to the aforementioned species (C. a. paraguayanus = C. cay; C. xanthosternos; C. nigritus).

Published

2010

28. Cebus paraguayanus and Cebus nigritus (Primates, Platyrrhini): a comparative genomic hybridization analysis.

Author

Nieves M, Mühlmann M, and Mudry MD

Subjects

Animals, Argentina, Comparative Genomic Hybridization methods, DNA genetics, DNA isolation & purification, Female, Genome, Humans, Karyotyping, Male, Primates genetics, Species Specificity, Cebus genetics, Cercopithecus genetics

Abstract

Primate genomes show a great karyological variability while the DNA content variation is scarce. The biggest genome size occurs in Cercophitecus cephus (Catarrhini, Cercophitecidae) with 5.26 pg whereas the smallest one is described for Callicebus torquatus (Platyrrhini, Callithricidae) with 2.26 pg. Over the last 20 years different authors have been studying the Platyrrhini genomes on a chromosomal level. Among them, Cebus (Cebidae) being considered the most ancestral and conserved karyotype in relation to human karyotype has been extensively studied. Cebus genome sizes range from 3.40 to 3.98 pg. The species that inhabit Argentina, where they reach the most southern natural distribution, Cebus paraguayanus (CPA) and Cebus nigritus (CNI), have been extensively studied with classical cytogenetic comparisons focusing on banding pattern behavior. In the present study we performed comparative genomic hybridization (CGH) between these two closely related species with the aim of going a step further in the dissection of Cebus genomes. CGH evidenced that the DNA imbalances between them involved different genome regions, i.e. preferentially repetitive DNA in CPA and coding or very disperse DNA in CNI. Particularly, CNI showed species-specific DNA in more than 9 chromosomal pairs with a red/green (r/g) ratio ranging from 1.7 to 4, meaning that CNI presents at least twice as much DNA than CPA in those chromosomal segments. CPA showed species-specific DNA in the telomeric region of at least 3 chromosomal pairs with an r/g ratio of 0.5. They also showed a DNA gain in the chromosomal pairs with extracentromeric heterochromatin. Our findings modify the widespread idea of considering the heterochromatin proportion as the only difference between CPA and CNI. In Cebus then, the diversification process could be mediated by little changes in DNA content accompanied by a euchromatin-heterochromatin interaction although maintaining a minimum proportion like the one observed in CNI., (2010 S. Karger AG, Basel.)

Published

2010

29. Mitochondrial divergence between 2 populations of the hooded capuchin, Cebus (Sapajus) cay (Platyrrhini, Primates).

Author

Casado F, Bonvicino CR, Nagle C, Comas B, Manzur TD, Lahoz MM, and Seuánez HN

Subjects

Animals, Brazil, Cebus classification, Cytochromes b genetics, Evolution, Molecular, Female, Haplotypes genetics, Paraguay, Phylogeny, Cebus genetics, DNA, Mitochondrial genetics, Genetic Speciation

Abstract

We analyzed the molecular divergence of 2 separate populations of Cebus apella paraguayanus, recently considered a junior synonym of Cebus cay, and estimated its time of separation from C. apella. Cytochrome b DNA from 23 C. cay from Brazil and 9 from Paraguay showed 24 haplotypes (20 and 4, respectively), accounting for 29 variable sites (19 transitions and 10 transversions), with 40.0%, 26.7%, and 33.0% replacements at first, second, and third codon positions, respectively. Genetic distance between haplotypes averaged 0.5%, with 1.1% between C. cay populations. Phylogenetic reconstructions and median joining separated C. cay from Brazil and Paraguay. Neighbor joining showed C. cay and C. apella as sister groups, although C. cay and C. apella collapsed in maximum parsimony and maximum likelihood topologies. Analysis of molecular variance showed the highest variance component between C. cay populations, and mismatch distribution indicated that this species suffered a recent demographic expansion. Divergence time estimates suggested that the 2 populations of C. cay split in the Pleistocene, a period of repeated glaciation events leading to drastic changes in the vegetation composition of different biomes.

Published

2010

30. An explicit signature of balancing selection for color-vision variation in new world monkeys.

Author

Hiwatashi T, Okabe Y, Tsutsui T, Hiramatsu C, Melin AD, Oota H, Schaffner CM, Aureli F, Fedigan LM, Innan H, and Kawamura S

Subjects

Animals, Atelinae genetics, Atelinae physiology, Cebus genetics, Cebus physiology, Color Vision physiology, Evolution, Molecular, Opsins genetics, Opsins physiology, Platyrrhini physiology, Polymorphism, Genetic genetics, Selection, Genetic genetics, Color Vision genetics, Platyrrhini genetics, Selection, Genetic physiology

Abstract

Color vision is an important characteristic of primates and, intriguingly, Neotropical monkeys are highly polymorphic for this trait. Recent field studies have challenged the conventional view that trichromatic color vision is more adaptive than dichromatic color vision. No study has investigated the pattern of genetic variation in the long to middle wavelength-sensitive (L-M or red-green) opsin gene as compared with that of other genomic regions (neutral references) in wild populations of New World monkeys to look for the signature of natural selection. Here, we report such a study conducted on spider monkeys and capuchin monkeys inhabiting Santa Rosa National Park, Costa Rica. The nucleotide sequence of the L-M opsin gene was more polymorphic than the sequences of the neutral references, although the opsin-gene sequences were not more divergent between the two species than were the sequences of the neutral references. In a coalescence simulation that took into account the observed nucleotide diversity of the neutral references, the Tajima's D value of the L-M opsin gene deviated significantly in a positive direction from the expected range. These results are the first to statistically demonstrate balancing selection acting on the polymorphic L-M opsin gene of New World monkeys. Taking the results of behavioral and genetic studies together, the balancing selection we detected may indicate that coexistence of different color-vision types in the same population, also characteristic of humans, is adaptive.

Published

2010

31. Pairing and recombination features during meiosis in Cebus paraguayanus (Primates: Platyrrhini).

Author

Garcia-Cruz R, Robles P, Steinberg ER, Camats N, Brieño MA, Garcia-Caldés M, and Mudry MD

Subjects

Animals, Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Chromosomes genetics, Heterochromatin genetics, In Situ Hybridization, Fluorescence, Male, Spermatocytes metabolism, Cebus genetics, Chromosome Pairing, Meiosis, Recombination, Genetic

Abstract

Background: Among neotropical Primates, the Cai monkey Cebus paraguayanus (CPA) presents long, conserved chromosome syntenies with the human karyotype (HSA) as well as numerous C+ blocks in different chromosome pairs.In this study, immunofluorescence (IF) against two proteins of the Synaptonemal Complex (SC), namely REC8 and SYCP1, two recombination protein markers (RPA and MLH1), and one protein involved in the pachytene checkpoint machinery (BRCA1) was performed in CPA spermatocytes in order to analyze chromosome meiotic behavior in detail., Results: Although in the vast majority of pachytene cells all autosomes were paired and synapsed, in a small number of nuclei the heterochromatic C-positive terminal region of bivalent 11 remained unpaired. The analysis of 75 CPA cells at pachytene revealed a mean of 43.22 MLH1 foci per nucleus and 1.07 MLH1 foci in each CPA bivalent 11, always positioned in the region homologous to HSA chromosome 21., Conclusion: Our results suggest that C blocks undergo delayed pairing and synapsis, although they do not interfere with the general progress of pairing and synapsis.

Published

2009

32. Karyological diagnosis of Cebus (Primates, Platyrrhini) in captivity: detection of hybrids and management program applications.

Author

Nieves M, Mendez G, Ortiz A, Mühlmann M, and Mudry MD

Subjects

Animals, Animals, Zoo, Female, Male, Phenotype, Cebus classification, Cebus genetics, Hybridization, Genetic genetics, Karyotyping veterinary

Abstract

Genetic data are very important for conservation programs in wild population as well as in captive conditions. Primates in zoos or breeding centers are often maintained in groups without geographic origin or genetic heritage information. These lead to the incorrect assignment of species and introduce an artificial reproductive barrier, which in turn constitutes inadequate management of the colonies. A karyological analysis of specimens from a Primate Reproduction Center, considered as Cebus apella (Platyrrhini), was performed. Cell cultures were conducted from peripheral blood samples following standard cytogenetic methods. A fluorescence in situ hybridization (FISH) procedure was applied in mitotic metaphases using two probes: A specific probe of the extracentromeric heterochromatin (He+) of Cebus, and a human chromosome 21 probe. The latter was chosen due to the known homeology with the euchromatic region limiting with 11qHe+ of Cebus. The species status was determined for at least half of the animals and identified a hybrid specimen using this combined FISH protocol. This procedure is an accurate diagnostic methodology for taxonomic determinations and, therefore can be used for management of reproduction in colonies.

Published

2008

33. Phylogenetic studies of the genus Cebus (Cebidae-Primates) using chromosome painting and G-banding.

Author

Amaral PJ, Finotelo LF, De Oliveira EH, Pissinatti A, Nagamachi CY, and Pieczarka JC

Subjects

Animals, Cebus classification, Humans, Karyotyping, Saguinus genetics, Species Specificity, Cebus genetics, Chromosome Banding methods, Chromosome Painting methods, Chromosomes, Mammalian, Phylogeny

Abstract

Background: Chromosomal painting, using whole chromosome probes from humans and Saguinus oedipus, was used to establish karyotypic divergence among species of the genus Cebus, including C. olivaceus, C. albifrons, C. apella robustus and C. apella paraguayanus. Cytogenetic studies suggested that the species of this genus have conservative karyotypes, with diploid numbers ranging from 2n = 52 to 2n = 54., Results: Banding studies revealed morphological divergence among some chromosomes, owing to variations in the size of heterochromatic blocks. This analysis demonstrated that Cebus species have five conserved human associations (i.e., 5/7, 2/16, 10/16, 14/15, 8/18 and 3/21) when compared with the putative ancestral Platyrrhini karyotype., Conclusion: The autapomorphies 8/15/8 in C. albifrons and 12/15 in C. olivaceus explain the changes in chromosome number from 54 to 52. The association 5/16/7, which has not previously been reported in Platyrrhini, was also found in C. olivaceus. These data corroborate previous FISH results, suggesting that the genus Cebus has a very similar karyotype to the putative ancestral Platyrrhini.

Published

2008

34. Evolution of growth hormone in primates: the GH gene clusters of the New World monkeys marmoset (Callithrix jacchus) and white-fronted capuchin (Cebus albifrons).

Author

Wallis OC and Wallis M

Subjects

Alu Elements, Animals, Gene Conversion, Gene Duplication, Humans, Models, Genetic, Molecular Sequence Data, Multigene Family, Phylogeny, Sequence Analysis, DNA, Callithrix genetics, Cebus genetics, Evolution, Molecular, Growth Hormone genetics, Primates genetics

Abstract

The GH gene cluster in marmoset, Callithrix jacchus, comprises eight GH-like genes and pseudogenes and appears to have arisen as a consequence of gene duplications occurring independently of those leading to the human GH gene cluster. We report here the complete sequence of the marmoset GH gene locus, including the intergenic regions and 5' and 3' flanking sequence, and a study of the multiple GH-like genes of an additional New World monkey (NWM), the white-fronted capuchin, Cebus albifrons. The marmoset sequence includes 945 nucleotides (nt) of 5' flanking sequence and 1596 nt of 3' flanking sequence that are "unique"; between these are eight repeat units, including the eight GH genes/pseudogenes. The breakpoints between these repeats are very similar, indicating a regular pattern of gene duplication. These breakpoints do not correspond to those found in the much less regular human GH gene cluster. This and phylogenetic analysis of the repeat units within the marmoset gene cluster strongly support the independent origin of these gene clusters, and the idea that the episode of rapid evolution that occurred during GH evolution in primates preceded the gene duplications. The marmoset GH gene cluster also differs from that of human in having fewer and more evenly distributed Alu sequences (a single pair in each repeat unit) and a "P-element" upstream of every gene/pseudogene. In human there is no P-element upstream of the gene encoding pituitary GH, and these elements have been implicated in placental expression of the other genes of the cluster. The GH gene clusters in marmoset and capuchin appear to have arisen as the consequence of a single-gene duplication event, but in capuchin there was then a remarkable expansion of the GH locus, giving at least 40 GH-like genes and pseudogenes. Thus even among NWMs the GH gene cluster is very variable.

Published

2006

35. Father-daughter inbreeding avoidance in a wild primate population.

Author

Muniz L, Perry S, Manson JH, Gilkenson H, Gros-Louis J, and Vigilant L

Subjects

Animals, Cebus growth & development, Genotype, Phenotype, Sequence Analysis, DNA, Cebus genetics, Inbreeding, Sexual Behavior, Animal

Published

2006

36. Heterochromatin and chromosome evolution: a FISH probe of Cebus apella paraguayanus (Primate: Platyrrhini) developed by chromosome microdissection.

Author

Nieves M, Mühlmann M, and Mudry MD

Subjects

Animals, Female, Male, Microdissection methods, Polymerase Chain Reaction, Sensitivity and Specificity, Cebus genetics, Chromosome Banding methods, Evolution, Molecular, Heterochromatin genetics, In Situ Hybridization, Fluorescence methods

Abstract

Neotropical Primate karyotypes are highly variable, particularly in the heterochromatic regions, not only regarding the amount of heterochromatin, but also the composition. G and C banding and FISH techniques provide useful information to characterize interspecific relationships. We used chromosome microdissection to develop a FISH probe of the chromosome 11 heterochromatic block (11qHe+) of Cebus apella paraguayanus (CAPp). Fragments of the 11qHe+ microdissected from fibroblast cell culture were collected in a PCR tube, amplified by degenerate oligonucleotide primer-PCR and subsequently labeled. The specificity of the FISH probe was confirmed in metaphases of some Ceboidea species. Signals were located in the He+ of chromosomes 4, 11, 12, 13, and 19 of CAPp and in the He+ of chromosomes 4, 12 and 13 of C. a. nigritus (CAPn); no signals were observed when other Ceboidea species were analyzed. We propose that the heterochromatin observed in CAPp and CAPn is specific for these species. We consider this C. apella heterochromatin identity as a possible key for the interpretation of chromosomal evolution in these Ceboidea.

Published

2005

37. Allele frequencies and genetic diversity in two groups of wild tufted capuchin monkeys (Cebus apella nigritus) living in an urban forest fragment.

Author

Amaral JM, Simões AL, and De Jong D

Subjects

Animals, Brazil, Genetics, Population, Microsatellite Repeats genetics, Trees, Urban Population, Cebus genetics, Gene Frequency genetics, Genetic Variation genetics

Abstract

There have been numerous studies genetically characterizing Old World Primates using microsatellites. However, few studies have been made of New World species and none on free-ranging Cebus apella, even though it is probably the most widely distributed species of monkey in the New World. The paucity of studies is due, in part, to the lack of polymorphisms described for this species. We studied two groups of wild tufted capuchins, Cebus apella nigritus, which inhabit Mata Santa Teresa, the Ecological Reserve of Ribeirão Preto, a 158-ha forest fragment in a semi-urban zone of Ribeirão Preto, SP, Brazil. Group 1 had about 60 animals, 35 of which were sampled, and group 2 had about 40 animals, 20 of which were sampled. These group sizes are much larger than the published reports of 6-30 for this species, despite, or perhaps due to the isolation and the size of the forest fragment. Allele PEPC59*1 was the most frequent of all alleles at all loci in both groups (55.7 and 55%), allele PEPC8*1 was the most common allele in group 2 (46.9%) and PEPC8*4 in group 1 (41.1%), allele PEPC3*2 was the most common in group 1 (35.7%) and allele PEPC3*4 in group 2 (31.6%). The genetic diversity, considering each locus in each group, varied from 61.9% at locus PEPC59 to 78.6% at locus PEPC3, both in group 1. The mean genetic diversity (H(S)), considering both groups for all of the loci, was 71.1%. The inter-group diversity (F(ST)) was 1.9%, indicating that these groups belong to the same population. These groups apparently have a high genetic diversity, despite their isolation in a limited forest fragment, although more data are needed to adequately characterize this population.

Published

2005

38. Advantage of dichromats over trichromats in discrimination of color-camouflaged stimuli in nonhuman primates.

Author

Saito A, Mikami A, Kawamura S, Ueno Y, Hiramatsu C, Widayati KA, Suryobroto B, Teramoto M, Mori Y, Nagano K, Fujita K, Kuroshima H, and Hasegawa T

Subjects

Animals, Cebus genetics, Discrimination Learning, Female, Macaca genetics, Male, Polymorphism, Genetic, Reaction Time, Vision Tests, Cebus physiology, Color Perception, Macaca physiology, Pan troglodytes physiology

Abstract

Due to a middle- to long-wavelength-sensitive (M/LWS) cone opsin polymorphism, there is considerable phenotypic variation in the color vision of New World monkeys. Many females have trichromatic vision, whereas some females and all males have dichromatic vision. The selective pressures that maintain this polymorphism are unclear. In the present study we compared the performance of dichromats and trichromats in a discrimination task. We examined tri- and dichromatic individuals of two species: brown capuchin monkeys (Cebus apella) and long-tailed macaques (Macaca fascicularis). We also examined one protanomalous chimpanzee (Pan troglodytes). The subjects' task was to discriminate a circular pattern from other patterns in which textural elements differed in orientation and thickness from the background. After they were trained with stimuli of a single color, the subjects were presented with color-camouflaged stimuli with a green/red mosaic overlaid onto the pattern. The dichromatic monkeys and the protanomalous chimpanzee selected the correct stimulus under camouflaged conditions at rates significantly above chance levels, while the trichromats did not. These findings demonstrate that dichromatic nonhuman primates possess a superior visual ability to discriminate color-camouflaged stimuli, and that such an ability may confer selective advantages with respect to the detection of cryptic foods and/or predators., (Copyright 2005 Wiley-Liss, Inc.)

Published

2005

39. Demonstration of a genotype-phenotype correlation in the polymorphic color vision of a non-callitrichine New World monkey, capuchin (Cebus apella).

Author

Saito A, Kawamura S, Mikami A, Ueno Y, Hiramatsu C, Koida K, Fujita K, Kuroshima H, and Hasegawa T

Subjects

Animals, Electroretinography, Female, Genotype, Male, Phenotype, Polymorphism, Genetic, Vision Tests, Cebus genetics, Color Perception genetics, Retinal Pigments genetics

Abstract

Color-vision polymorphism in New World monkeys occurs because of an allelic polymorphism of the single-copy red-green middle-to-long-wavelength-sensitive (M/LWS) opsin gene on the X chromosome. Because color-vision types can readily be estimated from allelic types of the M/LWS opsin gene, this polymorphic system offers researchers an excellent opportunity to study the association between vision and behavior. As a prerequisite for such studies, genetically determined color-vision types must be concordant with phenotypes determined directly by behavioral criteria (e.g., by a color discrimination test). However, such correlations between genotypes and phenotypes have been studied only for callitrichine species. Using genetic, electrophysiological, and behavioral approaches, we evaluated the color vision of brown capuchin monkeys (Cebus apella), a representative non-callitrichine model animal for physiology and behavior. Two allelic M/LWS opsins-P545 and P530-were identified in the studied captive population. Females had one or both of the alleles, and males had either one. The retinal sensitivity in P530 dichromats was short-wave shifted relative to that in P545 dichromats, whereas that in P530/P545 trichromats was between the two groups. In a discrimination task using Ishihara pseudo-isochromatic plates, P530/P545 trichromats were successful in discriminating stimuli that P530 and P545 dichromats were unable to discriminate. In a food-search task, P530/P545 trichromats were able to locate red targets among green distracters as quickly as among white distracters, whereas both types of dichromats took longer. These results demonstrate the mutual consistency between genotypes and phenotypes of color vision, and provide a solid genetic basis on which the ecology and evolution of color vision can be investigated., (Copyright 2005 Wiley-Liss, Inc.)

Published

2005

40. Color-vision polymorphism in wild capuchins (Cebus capucinus) and spider monkeys (Ateles geoffroyi) in Costa Rica.

Author

Hiramatsu C, Tsutsui T, Matsumoto Y, Aureli F, Fedigan LM, and Kawamura S

Subjects

Animals, Costa Rica, Female, Gene Frequency, Male, Phenotype, Phylogeny, Retinal Pigments chemistry, Sequence Analysis, DNA, Spectrophotometry, Cebidae genetics, Cebus genetics, Color Perception genetics, Retinal Pigments genetics

Abstract

New World monkeys are unique in exhibiting a color-vision polymorphism due to an allelic variation of the red-green visual pigment gene. This makes these monkeys excellent subjects for studying the adaptive evolution of the visual system from both molecular and ecological viewpoints. However, the allele frequencies of the pigments within a natural population have not been well investigated. As a first step toward understanding the relationship between vision and behavior, we conducted color-vision typing by analyzing fecal DNA from two wild groups of white-faced capuchin monkeys (Cebus capucinus) and one group of black-handed spider monkeys (Ateles geoffroyi) inhabiting Santa Rosa National Park of Costa Rica. All color-typed monkeys were individually identified. In C. capucinus and A. geoffroyi we found three and two pigment types, respectively, and the spectral mechanism that created one of the two Ateles pigments was found to be novel. In one Cebus group and the Ateles group, all alleles were present, whereas in the other Cebus group only two alleles were found, with one allele predominating. This was likely due to the effect of close inbreeding, indicating that wild populations can exhibit a variety of allele compositions. This result also suggests that the color-vision polymorphism can be easily distorted by natural factors, such as inbreeding, skewing the population structure., (Copyright 2005 Wiley-Liss, Inc.)

Published

2005

41. Evolutionary breakpoints are co-localized with fragile sites and intrachromosomal telomeric sequences in primates.

Author

Ruiz-Herrera A, García F, Giulotto E, Attolini C, Egozcue J, Ponsà M, and Garcia M

Subjects

Animals, Aphidicolin pharmacology, Chromosome Fragile Sites drug effects, Chromosomes, Mammalian drug effects, Female, Male, Mandrillus genetics, Metaphase genetics, Cebus genetics, Chromosome Breakage genetics, Chromosome Fragile Sites genetics, Chromosomes, Mammalian genetics, Evolution, Molecular, Telomere genetics

Abstract

The concentration of evolutionary breakpoints in primate karyotypes in some particular regions or chromosome bands suggests that these chromosome regions are more prone to breakage. This is the first extensive comparative study which investigates a possible relationship of two genetic markers (intrachromosomal telomeric sequences [TTAGGG]n, [ITSs] and fragile sites [FSs]), which are implicated in the evolutionary process as well as in chromosome rearrangements. For this purpose, we have analyzed: (a) the cytogenetic expression of aphidicolin-induced FSs in Cebus apella and Cebus nigrivittatus (F. Cebidae, Platyrrhini) and Mandrillus sphinx (F. Cercopithecidae, Catarrhini), and (b) the intrachromosomal position of telomeric-like sequences by FISH with a synthetic (TTAGGG)n probe in C. apella chromosomes. The multinomial FSM statistical model allowed us to determinate 53 FSs in C. apella, 16 FSs in C. nigrivittatus and 50 FSs in M. sphinx. As expected, all telomeres hybridized with the probe, and 55 intrachromosomal loci were also detected in the Cebus apella karyotype. The chi(2) test indicates that the coincidence of the location of Cebus and Mandrillus FSs with the location of human FSs is significant (P < 0.005). Based on a comparative cytogenetic study among different primate species we have identified (or described) the chromosome bands in the karyotypes of Papionini and Cebus species implicated in evolutionary reorganizations. More than 80% of these evolutionary breakpoints are located in chromosome bands that express FSs and/or contain ITSs., (Copyright (c) 2005 S. Karger AG, Basel.)

Published

2005

42. Evolutionary conserved chromosomal segments in the human karyotype are bounded by unstable chromosome bands.

Author

Ruiz-Herrera A, García F, Mora L, Egozcue J, Ponsà M, and Garcia M

Subjects

Alouatta genetics, Animals, Cebidae genetics, Cebus genetics, Cercopithecidae genetics, Chromosomes, Human, Pair 1 genetics, Chromosomes, Human, Pair 10 genetics, Chromosomes, Human, Pair 7 genetics, Chromosomes, Mammalian genetics, Gorilla gorilla genetics, Humans, Pan troglodytes genetics, Pongo pygmaeus genetics, Sequence Homology, Nucleic Acid, Chromosomal Instability genetics, Chromosome Banding methods, Chromosomes, Human genetics, Conserved Sequence genetics, Evolution, Molecular, Karyotyping

Abstract

In this paper an ancestral karyotype for primates, defining for the first time the ancestral chromosome morphology and the banding patterns, is proposed, and the ancestral syntenic chromosomal segments are identified in the human karyotype. The chromosomal bands that are boundaries of ancestral segments are identified. We have analyzed from data published in the literature 35 different primate species from 19 genera, using the order Scandentia, as well as other published mammalian species as out-groups, and propose an ancestral chromosome number of 2n = 54 for primates, which includes the following chromosomal forms: 1(a+c(1)), 1(b+c(2)), 2a, 2b, 3/21, 4, 5, 6, 7a, 7b, 8, 9, 10a, 10b, 11, 12a/22a, 12b/22b, 13, 14/15, 16a, 16b, 17, 18, 19a, 19b, 20 and X and Y. From this analysis, we have been able to point out the human chromosome bands more "prone" to breakage during the evolutionary pathways and/or pathology processes. We have observed that 89.09% of the human chromosome bands, which are boundaries for ancestral chromosome segments, contain common fragile sites and/or intrachromosomal telomeric-like sequences. A more in depth analysis of twelve different human chromosomes has allowed us to determine that 62.16% of the chromosomal bands implicated in inversions and 100% involved in fusions/fissions correspond to fragile sites, intrachromosomal telomeric-like sequences and/or bands significantly affected by X irradiation. In addition, 73% of the bands affected in pathological processes are co-localized in bands where fragile sites, intrachromosomal telomeric-like sequences, bands significantly affected by X irradiation and/or evolutionary chromosomal bands have been described. Our data also support the hypothesis that chromosomal breakages detected in pathological processes are not randomly distributed along the chromosomes, but rather concentrate in those important evolutionary chromosome bands which correspond to fragile sites and/or intrachromosomal telomeric-like sequences., (Copyright (c) 2005 S. Karger AG, Basel.)

Published

2005

43. Distribution, ecology, life history, genetic variation, and risk of extinction of nonhuman primates from Costa Rica.

Author

Zaldívar ME, Rocha O, Glander KE, Aguilar G, Huertas AS, Sánchez R, and Wong G

Subjects

Alouatta genetics, Animals, Atelinae genetics, Cebus genetics, Costa Rica, Population Density, Population Dynamics, Risk Factors, Saimiri genetics, Ecosystem, Extinction, Biological, Genetic Variation genetics, Haplorhini genetics

Abstract

We examined the association between geographic distribution, ecological traits, life history, genetic diversity, and risk of extinction in nonhuman primate species from Costa Rica. All of the current nonhuman primate species from Costa Rica are included in the study; spider monkeys (Ateles geoffroyi), howling monkeys (Alouatta palliata), capuchins (Cebus capucinus), and squirrel monkeys (Saimiri oerstedii). Geographic distribution was characterized accessing existing databases. Data on ecology and life history traits were obtained through a literature review. Genetic diversity was characterized using isozyme electrophoresis. Risk of extinction was assessed from the literature. We found that species differed in all these traits. Using these data, we conducted a Pearson correlation between risk of extinction and ecological and life history traits, and genetic variation, for widely distributed species. We found a negative association between risk of extinction and population birth and growth rates; indicating that slower reproducing species had a greater risk of extinction. We found a positive association between genetic variation and risk of extinction; i.e., species showing higher genetic variation had a greater risk of extinction. The relevance of these traits for conservation efforts is discussed.

Published

2004

44. Urocortin in the central nervous system of a primate (Cebus apella): sequencing, immunohistochemical, and hybridization histochemical characterization.

Author

Vasconcelos LA, Donaldson C, Sita LV, Casatti CA, Lotfi CF, Wang L, Cadinouche MZ, Frigo L, Elias CF, Lovejoy DA, and Bittencourt JC

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cebus genetics, Immunohistochemistry, In Situ Hybridization, Male, Molecular Sequence Data, Neural Pathways chemistry, Urocortins, Cebus metabolism, Central Nervous System chemistry, Corticotropin-Releasing Hormone analysis, Corticotropin-Releasing Hormone genetics

Abstract

The urocortin (UCN)-like immunoreactivity and UCN mRNA distribution in various regions of the nonprimate mammalian brain have been reported. However, the Edinger-Westphal nucleus (EW) appears to be the only brain site where UCN expression is conserved across species. Although UCN peptides are present throughout vertebrate phylogeny, the functional roles of both UCN and EW remain poorly understood. Therefore, a study focused on UCN system organization in the primate brain is warranted. By using immunohistochemistry (single and double labeling) and in situ hybridization, we have characterized the organization of UCN-expressing cells and fibers in the central nervous system and pituitary of the capuchin monkey (Cebus apella). In addition, the sequence of the prepro-UCN was determined to establish the level of structural conservation relative to the human sequence. To understand the relationship of acetylcholine cells in the EW, a colocalization study comparing choline acetyltransferase (ChAT) and UCN was also performed. The cloned monkey prepro-UCN is 95% identical to the human preprohormone across the matched sequences. By using an antiserum raised against rat UCN and a probe generated from human cDNA, we found that the EW is the dominant site for UCN expression, although UCN mRNA is also expressed in spinal cord lamina IX. Labeled axons and terminals were distributed diffusely throughout many brain regions and along the length of the spinal cord. Of particular interest were UCN-immunoreactive inputs to the medial preoptic area, the paraventricular nucleus of the hypothalamus, the oral part of the spinal trigeminal nucleus, the flocculus of the cerebellum, and the spinal cord laminae VII and X. We found no UCN hybridization signal in the pituitary. In addition, we observed no colocalization between ChAT and UCN in EW neurons. Our results support the hypothesis that the UCN system might participate in the control of autonomic, endocrine, and sensorimotor functions in primates., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

45. Cone pigment variations in four genera of new world monkeys.

Author

Jacobs GH and Deegan JF 2nd

Subjects

Adaptation, Ocular, Animals, Callitrichinae genetics, Callitrichinae metabolism, Callitrichinae psychology, Cebidae genetics, Cebidae metabolism, Cebus genetics, Cebus metabolism, Cebus psychology, Electroretinography, Female, Male, Pedigree, Retinal Pigments genetics, Rod Opsins genetics, Saguinus genetics, Saguinus metabolism, Saguinus psychology, Species Specificity, Cebidae psychology, Color Perception, Retinal Cone Photoreceptor Cells chemistry, Retinal Pigments analysis

Abstract

Previous research revealed significant individual variations in opsin genes and cone photopigments in several species of platyrrhine (New World) monkeys and showed that these in turn can yield significant variations in color vision. To extend the understanding of the nature of color vision in New World monkeys, electroretinogram flicker photometry was used to obtain spectral sensitivity measurements from representatives of four platyrrhine genera (Cebus, Leontopithecus, Saguinus, Pithecia). Animals from each genus were found to be polymorphic for middle to long-wavelength (M/L) sensitive cones. The presence of a short-wavelength sensitive photopigment was established as well so these animals conform to the earlier pattern in predicting that all male monkeys are dichromats while, depending on their opsin gene array, individual females can be either dichromatic or trichromatic. Across subjects a total of five different M/L cone pigments were inferred with a subset of three of these present in each species.

Published

2003

46. Chromosomal homologies between Cebus and Ateles (primates) based on ZOO-FISH and G-banding comparisons.

Author

García F, Ruiz-Herrera A, Egozcue J, Ponsà M, and Garcia M

Subjects

Animals, Female, Humans, In Situ Hybridization, Fluorescence, Karyotyping, Male, Cebidae genetics, Cebus genetics, Evolution, Molecular, Sequence Homology

Abstract

ZOO-FISH (Fluorescent "in vitro" hybridization) was used to establish the chromosomal homology between humans (HSA) and Cebus nigrivitatus (CNI) and Ateles belzebuth hybridus (ABH). These two species belong to different New World monkey families (Cebidae and Atelidae, respectively) which differ greatly in chromosome number and in chromosome morphology. The molecular results were followed by a detailed banding analysis. The ancestral karyotype of Cebus was then determined by a comparison of in situ hybridization results, as well as chromosomal morphology and banding in other Platyrrhini species. The karyotypes of the four species belonging to the genus Cebus differ from each other by three inversions and one fusion as well as in the location and amounts of heterochromatin. Results obtained by ZOO-FISH in ABH are in general agreement with previous gene-mapping and in situ hybridization data in Ateles, which show that spider monkeys have highly derived genomes. The chromosomal rearrangements detected between HSA and ABH on a band-to-band basis were 27 fusions/fissions, 12 centromeric shifts, and six pericentric inversions. The ancestral karyotype of Cebus was then compared with that of Ateles. The rearrangements detected were 20 fusions/fissions, nine centromeric shifts, and five inversions. Atelidae species are linked by a fragmentation of chromosome 4 into three segments forming an association of 4/15, while Ateles species are linked by 13 derived associations. The results also helped clarify the content of the ancestral platyrrhine karyotype and the mode of chromosomal evolution in these primates. In particular, associations 2/16 and 5/7 should be included in the ancestral karyotype of New World monkeys., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

47. Chromosomal homologies between humans and Cebus apella (Primates) revealed by ZOO-FISH.

Author

García F, Nogués C, Ponsà M, Ruiz-Herrera A, Egozcue J, and Garcia Caldés M

Subjects

Animals, Chromosome Banding, Humans, In Situ Hybridization, Fluorescence, Karyotyping, Cebus genetics

Published

2000

48. Microsatellite primers for the wild brown capuchin monkey Cebus apella.

Author

Escobar-Páramo P

Subjects

Animals, Cebidae genetics, Molecular Sequence Data, Polymerase Chain Reaction, Polymorphism, Genetic genetics, Cebus genetics, DNA Primers genetics, Microsatellite Repeats genetics

Published

2000

49. Characterization of constitutive heterochromatin in Cebus apella (Cebidae, Primates) and Pan troglodytes (Hominidae, Primates): comparison to human chromosomes.

Author

García F, Nogués C, Garcia M, Egozcue J, and Ponsà M

Subjects

Animals, Chromosomes, Human, Fluorescent Dyes, Humans, In Situ Hybridization, Fluorescence, Indoles, Karyotyping, Restriction Mapping, Cebus genetics, Chromosomes chemistry, Heterochromatin chemistry, Pan troglodytes genetics

Abstract

Using G bands, some homologies between the chromosomes of Cebus apella (CAP) and human chromosomes are difficult to establish. To solve this problem, we analyzed these homologies by fluorescence in situ hybridization using human whole chromosome probes (ZOO-FISH). The results indicated that 1) the human probe for chromosome 2 partially hybridizes with CAP chromosomes 13 and 5, 2) the human probe for chromosome 3 partially hybridizes with CAP chromosomes 18 and 20, 3) the human probe for chromosome 9 partially hybridizes with CAP chromosome 19, and 4) the human probe for chromosome 14 hybridizes with the p-terminal and q-terminal regions of CAP chromosome 6. However, none of the human probes employed hybridized with the heterochromatic regions of CAP chromosomes. For this reason, we characterized the heterochromatic regions of CAP chromosomes and of the chromosomes of Pan troglodytes (PTR), to allow comparison between CAP, PTR, and human chromosomes using in situ digestion of fixed chromosomes with the restriction enzymes AluI, HaeIII, and RsaI and by fluorescent staining with DA/DAPI. The results show that 1) centromeric heterochromatin is heterogeneous in the three species studied and 2) noncentromeric heterochromatin is homogeneous within each of the three species, but is different for each species. Thus, centromeric heterochromatin undergoes a higher degree of variability than noncentromeric heterochromatin.

Published

1999

50. Noninvasive methods for collecting fresh hair tissue.

Author

Valderrama X, Karesh WB, Wildman DE, and Melnick DJ

Subjects

Animals, Base Sequence, Carnivora genetics, DNA genetics, DNA isolation & purification, Molecular Sequence Data, Papio genetics, Polymerase Chain Reaction methods, Cebus genetics, Hair, Specimen Handling methods

Published

1999