Phylogenetic relationships among some Ateles species: The use of chromosomic and molecular characters

As with most platyrrhines, the systematics of Ateles is under discussion. In order to help clarify its systematic, we employed chromosomic and molecular characters to analyze the phylogenetic relationship among some species of the genus Ateles. Chromosomic studies were conducted on 14 atelid specime...

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Detalles Bibliográficos
Publicado: 2005
Materias:
Ateles
Chromosomic forms
Cytogenetics
Phylogeny
Systematics
cytochrome c oxidase
cytochrome C oxidase subunit II
phylogenetics
animal
article
Cebidae
chromosome
comparative study
DNA sequence
genetics
karyotyping
meiosis
molecular genetics
nucleotide sequence
phylogeny
species difference
Animals
Base Sequence
Chromosomes, Mammalian
Electron Transport Complex IV
Karyotyping
Meiosis
Molecular Sequence Data
Sequence Analysis, DNA
Species Specificity
Alouatta
Alouatta caraya
Ateles belzebuth
Ateles geoffroyi
Ateles marginatus
Ateles paniscus
Platyrrhini
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00328332_v46_n3_p155_Nieves
http://hdl.handle.net/20.500.12110/paper_00328332_v46_n3_p155_Nieves
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_00328332_v46_n3_p155_Nieves
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spelling paper:paper_00328332_v46_n3_p155_Nieves2023-06-08T15:00:22Z Phylogenetic relationships among some Ateles species: The use of chromosomic and molecular characters Ateles Chromosomic forms Cytogenetics Phylogeny Systematics cytochrome c oxidase cytochrome C oxidase subunit II phylogenetics animal article Cebidae chromosome comparative study DNA sequence genetics karyotyping meiosis molecular genetics nucleotide sequence phylogeny species difference Animals Base Sequence Cebidae Chromosomes, Mammalian Electron Transport Complex IV Karyotyping Meiosis Molecular Sequence Data Phylogeny Sequence Analysis, DNA Species Specificity Alouatta Alouatta caraya Ateles Ateles belzebuth Ateles geoffroyi Ateles marginatus Ateles paniscus Platyrrhini As with most platyrrhines, the systematics of Ateles is under discussion. In order to help clarify its systematic, we employed chromosomic and molecular characters to analyze the phylogenetic relationship among some species of the genus Ateles. Chromosomic studies were conducted on 14 atelid specimens: eight Ateles from A. paniscus, A. chamek, A. belzebuth and A. geoffroyi, and six Alouatta caraya. Ateles paniscus showed 2N=32, whereas A. chamek, A. belzebuth and A. geoffroyi presented 2N=34, XX/XY (with a submetacentric X and a variable Y) corroborated by male meiosis. Nucleotide sequence variation at the mitochondrial cytochrome c oxidase subunit II gene (COII) was analyzed in ten New World monkey specimens. Parsimony trees showed consistent phylogenetic relationships using both chromosomic forms and mitochondrial COII gene sequences as characters. Particularly, chromosomic phylogenies showed A. hybridus as a divergent taxon from the remaining group, whereas A. chamek, A. belzebuth and A. marginatus form an unresolved clade with A. geoffroyi as sister group. © Japan Monkey Centre and Springer-Verlag 2005. 2005 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00328332_v46_n3_p155_Nieves http://hdl.handle.net/20.500.12110/paper_00328332_v46_n3_p155_Nieves
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Ateles
Chromosomic forms
Cytogenetics
Phylogeny
Systematics
cytochrome c oxidase
cytochrome C oxidase subunit II
phylogenetics
animal
article
Cebidae
chromosome
comparative study
DNA sequence
genetics
karyotyping
meiosis
molecular genetics
nucleotide sequence
phylogeny
species difference
Animals
Base Sequence
Cebidae
Chromosomes, Mammalian
Electron Transport Complex IV
Karyotyping
Meiosis
Molecular Sequence Data
Phylogeny
Sequence Analysis, DNA
Species Specificity
Alouatta
Alouatta caraya
Ateles
Ateles belzebuth
Ateles geoffroyi
Ateles marginatus
Ateles paniscus
Platyrrhini
spellingShingle Ateles
Chromosomic forms
Cytogenetics
Phylogeny
Systematics
cytochrome c oxidase
cytochrome C oxidase subunit II
phylogenetics
animal
article
Cebidae
chromosome
comparative study
DNA sequence
genetics
karyotyping
meiosis
molecular genetics
nucleotide sequence
phylogeny
species difference
Animals
Base Sequence
Cebidae
Chromosomes, Mammalian
Electron Transport Complex IV
Karyotyping
Meiosis
Molecular Sequence Data
Phylogeny
Sequence Analysis, DNA
Species Specificity
Alouatta
Alouatta caraya
Ateles
Ateles belzebuth
Ateles geoffroyi
Ateles marginatus
Ateles paniscus
Platyrrhini
Phylogenetic relationships among some Ateles species: The use of chromosomic and molecular characters
topic_facet Ateles
Chromosomic forms
Cytogenetics
Phylogeny
Systematics
cytochrome c oxidase
cytochrome C oxidase subunit II
phylogenetics
animal
article
Cebidae
chromosome
comparative study
DNA sequence
genetics
karyotyping
meiosis
molecular genetics
nucleotide sequence
phylogeny
species difference
Animals
Base Sequence
Cebidae
Chromosomes, Mammalian
Electron Transport Complex IV
Karyotyping
Meiosis
Molecular Sequence Data
Phylogeny
Sequence Analysis, DNA
Species Specificity
Alouatta
Alouatta caraya
Ateles
Ateles belzebuth
Ateles geoffroyi
Ateles marginatus
Ateles paniscus
Platyrrhini
description As with most platyrrhines, the systematics of Ateles is under discussion. In order to help clarify its systematic, we employed chromosomic and molecular characters to analyze the phylogenetic relationship among some species of the genus Ateles. Chromosomic studies were conducted on 14 atelid specimens: eight Ateles from A. paniscus, A. chamek, A. belzebuth and A. geoffroyi, and six Alouatta caraya. Ateles paniscus showed 2N=32, whereas A. chamek, A. belzebuth and A. geoffroyi presented 2N=34, XX/XY (with a submetacentric X and a variable Y) corroborated by male meiosis. Nucleotide sequence variation at the mitochondrial cytochrome c oxidase subunit II gene (COII) was analyzed in ten New World monkey specimens. Parsimony trees showed consistent phylogenetic relationships using both chromosomic forms and mitochondrial COII gene sequences as characters. Particularly, chromosomic phylogenies showed A. hybridus as a divergent taxon from the remaining group, whereas A. chamek, A. belzebuth and A. marginatus form an unresolved clade with A. geoffroyi as sister group. © Japan Monkey Centre and Springer-Verlag 2005.
title Phylogenetic relationships among some Ateles species: The use of chromosomic and molecular characters
title_short Phylogenetic relationships among some Ateles species: The use of chromosomic and molecular characters
title_full Phylogenetic relationships among some Ateles species: The use of chromosomic and molecular characters
title_fullStr Phylogenetic relationships among some Ateles species: The use of chromosomic and molecular characters
title_full_unstemmed Phylogenetic relationships among some Ateles species: The use of chromosomic and molecular characters
title_sort phylogenetic relationships among some ateles species: the use of chromosomic and molecular characters
publishDate 2005
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00328332_v46_n3_p155_Nieves
http://hdl.handle.net/20.500.12110/paper_00328332_v46_n3_p155_Nieves
_version_ 1768545869586497536

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