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1. Comparative Genomic Hybridization (CGH) in New World Monkeys (Primates) Reveals the Distribution of Repetitive Sequences in Cebinae and Callitrichinae.

Author

Milioto, Vanessa, Arizza, Vincenzo, Vizzini, Aiti, Perelman, Polina L., Roelke-Parker, Melody E., and Dumas, Francesca

Abstract

Simple Summary: The Genomic Hybridization (CGH) of the total DNA from two individual animals labeled with two different fluorescent dyes are mapped on a target metaphase, which can be from the same species or from a different species. This approach permits identifying the pattern of distribution of repetitive sequences on chromosomes. Furthermore, it is possible to identify loss or gain of repetitive sequences among species through this approach, changes that can occur during the species evolution. These changes can be useful for delineating repetitive sequences dynamic or phylogenetic and conservation issues. The intraspecies and interspecies Comparative Genomic Hybridization (CGH) between the closely related Cebidae species, capuchin monkeys (Cebus capucinus, Sapajus apella), and the tamarins (Saguinus mystax, Leontocebus fuscicollis) was performed to analyze their genomes. In particular, this approach determines balanced and unbalanced repetitive DNA sequence distribution and reveals dynamics during evolution. Capuchin monkeys are considered the most ancestral group with conserved syntenies compared to the hypothetical ancestral New World monkeys' karyotype. Also, more derived karyotypes of phylogenetically distant species from the Saguinus and Leontocebus genera are analyzed here. The distribution of repetitive sequences has been traditionally studied through classical staining methods of cytogenetics. It has been hypothesized that repeats are species-specific and their conservation across closely related species are also common; their role in the genome has been extensively studied even though its role in speciation is not well studied and understood. The CGH shows bright signals with balanced and imbalanced DNA involving different genome regions: such as predominantly repetitive DNA at centromeric positions, and interstitial distribution with extended blocks. Cross-species CGH demonstrated the origin of some heterochromatic regions and identified apomorphic heterochromatin expansion events. The uncovered distribution of repetitive sequences is analyzed from an evolutionary perspective to elucidate the genomic dynamics of the repetitive sequences at the level of chromosomal organization. [ABSTRACT FROM AUTHOR]

Published
2025
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16. Molecular Cytogenetic Characterization of the Sicilian Endemic Pond Turtle Emys trinacris and the Yellow-Bellied Slider Trachemys scripta scripta (Testudines, Emydidae)

Author

Scardino, Rita, Mazzoleni, Sofia, Rovatsos, Michail, Vecchioni, Luca, Dumas, Francesca, Rita Scardino, Sofia Mazzoleni, Michail Rovatso, Luca Vecchioni, and Francesca Dumas

Subjects
karyotype, lcsh:Genetics, telomeric sequences, Trachemys scripta scripta, lcsh:QH426-470, FISH, Settore BIO/05 - Zoologia, rDNA, Emys trinacris, Emys trinacri, telomeric sequence
Abstract

Turtles, a speciose group consisting of more than 300 species, demonstrate karyotypes with diploid chromosome numbers ranging from 2n = 26 to 2n = 68. However, cytogenetic analyses have been conducted only to 1/3rd of the turtle species, often limited to conventional staining methods. In order to expand our knowledge of the karyotype evolution in turtles, we examined the topology of the (TTAGGG)n telomeric repeats and the rDNA loci by fluorescence in situ hybridization (FISH) on the karyotypes of two emydids: the Sicilian pond turtle, Emys trinacris, and the yellow-bellied slider, Trachemys scripta scripta (family Emydidae). Furthermore, AT-rich and GC-rich chromosome regions were detected by DAPI and CMA3 stains, respectively. The cytogenetic analysis revealed that telomeric sequences are restricted to the terminal ends of all chromosomes and the rDNA loci are localized in one pair of microchromosomes in both species. The karyotype of the Sicilian endemic E. trinacris with diploid number 2n = 50, consisting of 13 pairs of macrochromosomes and 12 pairs of microchromosomes, is presented here for first time. Our comparative examination revealed similar cytogenetic features in Emys trinacris and the closely related E. orbicularis, as well as to other previously studied emydid species, demonstrating a low rate of karyotype evolution, as chromosomal rearrangements are rather infrequent in this group of turtles.

Published
2020

18. Comparative Cytogenetics Allows the Reconstruction of Human Chromosome History : The Case of Human Chromosome 13

Author

Dumas, Francesca, Milioto, Vanessa, and Scardino, Rita

Subjects
Science / Life Sciences / Biochemistry
Abstract

Comparative cytogenetics permits the identification of human chromosomal homologies and rearrangements between species, allowing the reconstruction of the history of each human chromosome. The aim of this work is to review evolutionary aspects regarding human chromosome 13. Classic and molecular cytogenetics using comparative banding, chromosome painting, and bacterial artificial chromosome (BAC) mapping can help us formulate hypotheses about chromosome ancestral forms; more recently, sequence data have been integrated as well. Although it has been previously shown to be conserved when compared to the ancestral primate chromosome, it shows a degree of rearrangements in some primate taxa; furthermore, it has been hypothesised to have a complex origin in eutherian mammals which has still not been completely clarified.

Published
2018

22. Chromosomal Localization of 18S-28S rDNA and(TTAGGG)n Sequences in Two South African Dormice of the Genus Graphiurus (Rodentia: Gliridae).

Author

Milioto, Vanessa, Vlah, Sara, Mazzoleni, Sofia, Rovatsos, Michail, and Dumas, Francesca

Subjects
KARYOTYPES, RECOMBINANT DNA, FLUORESCENCE in situ hybridization, RODENTS, SOUTH Africans
Abstract

Classical cytogenetics and mapping of 18S-28S rDNA and (TTAGGG)n sequences by fluorescence in situ hybridization (FISH) was performed on Graphiurus platyops (GPL) and Graphiurus ocularis (GOC) metaphases with the aim to characterize the genomes. In both species, inverted DAPI karyotypes showed the same diploid number, 2n = 46, and hybridization of the (TTAGGG)n probe revealed interstitial telomeric sequences (ITSs) at the centromeres of almost all bi-armed chromosomes. FISH with the rDNA probe localized nucleolus organizer regions (NORs), at the terminal ends of the p arms of the subtelocentric pairs 16 and 17 in both species and detected additional signals on GPL8 and GOC18, 19, and 22. The species have similar karyotypes, but their chromosome pairs 18-22 differ in morphology; these are acrocentric in G. platyops, as also confirmed by C-banding, and subtelocentric in G. ocularis. These differences in pairs 18-22 were also highlighted by hybridization of the telomeric probe (TTAGGG)n, which showed the small p arms in G. ocularis enriched with ITSs. FISH of rDNA probes detected multiple NOR loci in G. ocularis, underlining the intense evolutionary dynamics related to these genes. Although the Graphiurus species analyzed have similar karyotypes, the results on the repetitive sequences indicate a complex pattern of genomic reorganization and evolution occurring in these phylogenetically close species. [ABSTRACT FROM AUTHOR]

Published
2019
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28. Chromosomal dynamics in platyrrhinae by mapping bacs probes

Author

DUMAS, Francesca, SINEO, Luca, DUMAS,F, and SINEO,L

Subjects
molecular cytogenetics, cloned DNA probe, new evolutionary centromere, human synteny 4, phylogeny, Settore BIO/08 - Antropologia
Abstract

molecular cytogenetics, cloned DNA probe, new evolutionary centromere, human synteny 4, phylogeny

Published
2012

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