Luca Sineo scite author profile

We developed chromosome painting probes for Callicebus pallescens from flow-sorted chromosomes and used multidirectional chromosome painting to investigate the genomic rearrangements in C. cupreus and C. pallescens. Multidirectional painting provides information about chromosomal homologies at the subchromosomal level and rearrangement break points, allowing chromosomes to be used as cladistic markers. Chromosome paints of C. pallescens were hybridized to human metaphases and 43 signals were detected. Then, both human and C. pallescens probes were hybridized to the chromosomes of another titi monkey, C. cupreus. The human chromosome paints detected 45 segments in the haploid karyotype of C. cupreus. We found that all the syntenic associations proposed for the ancestral platyrrhine karyotype are present in C. cupreus and in C. pallescens. The rearrangements differentiating C. pallescens from C. cupreus re one inversion, one fission and three fusions (two tandem and one Robertsonian)that occurred on the C. cupreus lineage. Our results support the hypothesis that karyological evolution in titi monkeys has resulted in reduction in diploid number and that species with higher diploid numbers (with less derived, more ancestral karyotypes)are localized in the centre of the geographic range of the genera, while more derived species appear to occupy the periphery.

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Phylogenomics of species from four genera of New World monkeys by flow sorting and reciprocal chromosome painting

Dumas

Stanyon

Sineo

et al. 2007

BMC Evol Biol

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Background: The taxonomic and phylogenetic relationships of New World monkeys (Platyrrhini) are difficult to distinguish on the basis of morphology and because diagnostic fossils are rare. Recently, molecular data have led to a radical revision of the traditional taxonomy and phylogeny of these primates. Here we examine new hypotheses of platyrrhine evolutionary relationships by reciprocal chromosome painting after chromosome flow sorting of species belonging to four genera of platyrrhines included in the Cebidae family: Callithrix argentata (silvered-marmoset), Cebuella pygmaea (pygmy marmoset), Callimico goeldii (Goeldi's marmoset) and Saimiri sciureus (squirrel monkey). This is the first report of reciprocal painting in marmosets.

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Chromosomal distribution of interstitial telomeric sequences in nine neotropical primates (Platyrrhini): possible implications in evolution and phylogeny

Dumas

Cuttaia

Sineo

2016

J Zool Syst Evol Res

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To localize interstitial telomeric sequences (ITSs) and to test whether their pattern of distribution could be linked to chromosomal evolution, we hybridized telomeric sequence probes (peptide nucleic acid, PNA) on metaphases of New World monkeys: Callithrix argentata, Callithrix jacchus, Cebuella pygmaea, Saguinus oedipus, Saimiri sciureus, Aotus lemurinus griseimembra, Aotus nancymaae (Cebidae), Lagothrix lagotricha (Atelidae) and Callicebus moloch (Pithecidae), characterized by a rapid radiation and a high rate of chromosomal rearrangements. Our analysis of the probe signal localization allowed us to show in all the species analysed, as normally, the telomeric location at the terminal ends of chromosomes and unexpected signal distributions in some species. Indeed, in three species among the nine studied, Aotus lemurinus griseimembra, Aotus nancymaae (Cebidae) and Lagothrix lagotricha (Atelidae), we showed a high variability in terms of localization and degree of amplification of interstitial telomeric sequences, especially for the ones found at centromeric or pericentromeric positions (het-ITS). A comparative analysis, between species, of homologous chromosomes to human syntenies, on which we have found positive interspersed PNA signals, allowed us to explain the observed pattern of ITS distribution as results of chromosomal rearrangements in the neotropical primates analysed. This evidence permitted us to discuss the possible implication of ITSs as phylogenetic markers for closely related species. Moreover, reviewing previous literature data of ITSs distribution in Primates and in the light of our results, we suggest an underestimation of ITSs and highlight the importance of the molecular cytogenetics approach in characterizing ITSs, which role is still not clarified

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Banded Karyotypes of the 44-Chromosome Gibbons

Stanyon¹,

Sineo²,

Chiarelli³

et al. 1987

IJFP

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A comparison of the 44-chromosome gibbons (27 animals from the taxa H. agilis, H. lar, H. klossii, H. muelleri, H. moloch and H. pileatus) shows that these species have a nearly identical, if not identical, G-banding pattern. Two chromosomes, No. 8 and the marker chromosome bearing the nucleolar organizing region, show intraspecific polymorphism. There are three forms of chromosome 8 (8a, 8b, 8c). Chromosome 8a can be derived from 8b by a single pericentric inversion while to derive chromosome 8c from 8b requires at least two pericentric inversions. Apparently, the 44-chromosome gibbons are chromosomally conservative or have only recently differentiated. The presence of a polymorphism of chromosome 8 in four of the six taxa studied in wild-caught animals makes it likely that this polymorphism occurs in natural populations and was the ancestral condition for all the taxa studied. However, the possible existence of natural karyomorphs has conservation implications because animals heterozygous for different forms of chromosome 8 may have lowered fertility due to the production of unbalanced gametes. The exact implications of these chromosomal polymorphisms could be further clarified by a population level study of animals of known provenance.

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Distribution of Interstitial Telomeric Sequences in Primates and the Pygmy Tree Shrew (Scandentia)

Mazzoleni

Schillaci²,

Sineo³

et al. 2017

Cytogenet Genome Res

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It has been hypothesized that interstitial telomeric sequences (ITSs), i.e., repeated telomeric DNA sequences found at intrachromosomal sites in many vertebrates, could be correlated to chromosomal rearrangements and plasticity. To test this hypothesis, we hybridized a telomeric PNA probe through FISH on representative species of 2 primate infraorders, Strepsirrhini (Lemur catta, Otolemur garnettii, Nycticebus coucang) and Catarrhini (Erythrocebus patas, Cercopithecus petaurista, Chlorocebus aethiops, Colobus guereza), as well as on 1 species of the order Scandentia, Tupaia minor, used as an outgroup for primates in phylogenetic reconstructions. In almost all primate species analyzed, we found a telomeric pattern only. In Tupaia, the hybridization revealed many bright ITSs on at least 11 chromosome pairs, both biarmed and acrocentric. These ITS signals in Tupaia correspond to fusion points of ancestral human syntenic associations, but are also present in other chromosomes showing synteny to only a single human chromosome. This distribution pattern was compared to that of the heterochromatin regions detected through sequential C-banding performed after FISH. Our results in the analyzed species, compared with literature data on ITSs in primates, allowed us to discuss different mechanisms responsible for the origin and distribution of ITSs, supporting the correlation between rearrangements and ITSs.

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Luca Sineo

Mapping genomic rearrangements in titi monkeys by chromosome flow sorting and multidirectional in-situ hybridization

Phylogenomics of species from four genera of New World monkeys by flow sorting and reciprocal chromosome painting

Chromosomal distribution of interstitial telomeric sequences in nine neotropical primates (Platyrrhini): possible implications in evolution and phylogeny

Banded Karyotypes of the 44-Chromosome Gibbons

Distribution of Interstitial Telomeric Sequences in Primates and the Pygmy Tree Shrew (Scandentia)

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