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Genet Mol Biol
2009 Oct 01;324:786-91. doi: 10.1590/S1415-47572009005000069.
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Synteny of human chromosomes 14 and 15 in the platyrrhines (Primates, Platyrrhini).
Gifalli-Iughetti C
,
Koiffmann CP
.
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In order to study the intra- and interspecific variability of the 14/15 association in Platyrrhini, we analyzed 15 species from 13 genera, including species that had not been described yet. The DNA libraries of human chromosomes 14 and 15 were hybridized to metaphases of Alouatta guariba clamitans, A. caraya, A. sara, Ateles paniscus chamek, Lagothrix lagothricha, Brachyteles arachnoides, Saguinus midas midas, Leontopithecus chrysomelas, Callimico goeldii, Callithrix sp., Cebus apella, Aotus nigriceps, Cacajao melanocephalus,Chiropotes satanas and Callicebus caligatus. The 14/15 hybridization pattern was present in 13 species, but not in Alouatta sara that showed a 14/15/14 pattern and Aotus nigriceps that showed a 15/14/15/14 pattern. In the majority of the species, the HSA 14 homologue retained synteny for the entire chromosome, whereas the HSA 15 homologue displayed fragmented segments. Within primates, the New World monkeys represent the taxon with the highest variability in chromosome number (2n = 16 to 62). The presence of the HSA 14/15 association in all species and subspecies studied herein confirms that this association is the ancestral condition for platyrrhines and that this association has been retained in most platyrrhines, despite the occurrence of extensive inter- and intrachromosomal rearrangements in this infraorder of Primates.
Barros,
Chromosomal studies in Callicebus donacophilus pallescens, with classic and molecular cytogenetic approaches: multicolour FISH using human and Saguinus oedipus painting probes.
2003, Pubmed
Barros,
Chromosomal studies in Callicebus donacophilus pallescens, with classic and molecular cytogenetic approaches: multicolour FISH using human and Saguinus oedipus painting probes.
2003,
Pubmed
Breen,
Reciprocal chromosome painting reveals detailed regions of conserved synteny between the karyotypes of the domestic dog (Canis familiaris) and human.
1999,
Pubmed
Chowdhary,
Emerging patterns of comparative genome organization in some mammalian species as revealed by Zoo-FISH.
1998,
Pubmed
Consigliere,
In situ hybridization (FISH) maps chromosomal homologies between Alouatta belzebul (Platyrrhini, Cebidae) and other primates and reveals extensive interchromosomal rearrangements between howler monkey genomes.
1998,
Pubmed
Consigliere,
Chromosome painting defines genomic rearrangements between red howler monkey subspecies.
1996,
Pubmed
Dumas,
Mapping genomic rearrangements in titi monkeys by chromosome flow sorting and multidirectional in-situ hybridization.
2005,
Pubmed
Ferguson-Smith,
Mammalian karyotype evolution.
2007,
Pubmed
Froenicke,
Origins of primate chromosomes - as delineated by Zoo-FISH and alignments of human and mouse draft genome sequences.
2005,
Pubmed
García,
Chromosomal homologies between Cebus and Ateles (primates) based on ZOO-FISH and G-banding comparisons.
2002,
Pubmed
García,
Characterization of constitutive heterochromatin in Cebus apella (Cebidae, Primates) and Pan troglodytes (Hominidae, Primates): comparison to human chromosomes.
1999,
Pubmed
García,
Chromosomal homologies between humans and Cebus apella (Primates) revealed by ZOO-FISH.
2000,
Pubmed
Gerbault-Serreau,
Chromosome painting comparison of Leontopithecus chrysomelas (Callitrichine, Platyrrhini) with man and its phylogenetic position.
2004,
Pubmed
Haig,
A brief history of human autosomes.
1999,
Pubmed
Jauch,
Reconstruction of genomic rearrangements in great apes and gibbons by chromosome painting.
1992,
Pubmed
Morescalchi,
Mapping chromosomal homology between humans and the black-handed spider monkey by fluorescence in situ hybridization.
1997,
Pubmed
Mudry,
Meiosis and chromosome painting of sex chromosome systems in Ceboidea.
2001,
Pubmed
Müller,
Molecular cytogenetic characterization of the EBV-producing cell line B95-8 (Saguinus oedipus, Platyrrhini) by chromosome sorting and painting.
2001,
Pubmed
Nash,
Comparative genomics: tracking chromosome evolution in the family ursidae using reciprocal chromosome painting.
1998,
Pubmed
Neusser,
Molecular cytotaxonomy of New World monkeys (Platyrrhini) - comparative analysis of five species by multi-color chromosome painting gives evidence for a classification of Callimico goeldii within the family of Callitrichidae.
2001,
Pubmed
Richard,
ZOO-FISH suggests a complete homology between human and capuchin monkey (Platyrrhini) euchromatin.
1996,
Pubmed
Ruiz-Herrera,
Evolutionary conserved chromosomal segments in the human karyotype are bounded by unstable chromosome bands.
2005,
Pubmed
Ruiz-Herrera,
Comparative chromosome painting in Aotus reveals a highly derived evolution.
2005,
Pubmed
Seuánez,
Gene mapping in the spider monkey (Ateles paniscus chamek).
1994,
Pubmed
Sherlock,
Homologies between human and marmoset (Callithrix jacchus) chromosomes revealed by comparative chromosome painting.
1996,
Pubmed
Stanyon,
Chromosome painting in Callicebus lugens, the species with the lowest diploid number (2n=16) known in primates.
2003,
Pubmed
Stanyon,
Multi-directional chromosome painting maps homologies between species belonging to three genera of New World monkeys and humans.
2004,
Pubmed
Stanyon,
Reciprocal chromosome painting between a New World primate, the woolly monkey, and humans.
2001,
Pubmed
Stanyon,
Fluorescence in situ hybridization (FISH) maps chromosomal homologies between the dusky titi and squirrel monkey.
2000,
Pubmed
Wienberg,
Fluorescence in situ hybridization to chromosomes as a tool to understand human and primate genome evolution.
2005,
Pubmed
de Oliveira,
The phylogeny of howler monkeys (Alouatta, Platyrrhini): reconstruction by multicolor cross-species chromosome painting.
2002,
Pubmed
de Oliveira,
Phylogenetic inferences of Atelinae (Platyrrhini) based on multi-directional chromosome painting in Brachyteles arachnoides, Ateles paniscus paniscus and Ateles b. marginatus.
2005,
Pubmed
,
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