Genomic Organization of Microsatellites and LINE-1-like Retrotransposons: Evolutionary Implications for Ctenomys minutus (Rodentia: Ctenomyidae) Cytotypes

Thays Duarte de Oliveira; Natasha Avila Bertocchi; Rafael Kretschmer; Edivaldo H. C. de Oliveira; Marcelo de Bello Cioffi; Thomas Liehr; Thales R. O. de Freitas

doi:10.3390/ani12162091

Animals (Aug 2022)

Genomic Organization of Microsatellites and LINE-1-like Retrotransposons: Evolutionary Implications for Ctenomys minutus (Rodentia: Ctenomyidae) Cytotypes

Thays Duarte de Oliveira,
Natasha Avila Bertocchi,
Rafael Kretschmer,
Edivaldo H. C. de Oliveira,
Marcelo de Bello Cioffi,
Thomas Liehr,
Thales R. O. de Freitas

Affiliations

Thays Duarte de Oliveira: Programa de Pós-Graduação em Biologia Animal, Universidade Federal do Rio Grande do Sul, Porto Alegre 91501-970, Brazil
Natasha Avila Bertocchi: Programa de Pós-Graduação em Genética e Biologia Molecular, Universidade Federal do Rio Grande do Sul, Porto Alegre 91501-970, Brazil
Rafael Kretschmer: Departamento de Ecologia, Zoologia e Genética, Instituto de Biologia, Universidade Federal de Pelotas, Pelotas 96010-900, Brazil
Edivaldo H. C. de Oliveira: Instituto de Ciências Exatas e Naturais, Universidade Federal do Pará, Belém 66075-110, Brazil
Marcelo de Bello Cioffi: Departamento de Genética e Evolução, Universidade Federal de São Carlos, São Carlos 13565-905, Brazil
Thomas Liehr: Institute of Human Genetics, University Hospital Jena, Friedrich Schiller University, 07747 Jena, Germany
Thales R. O. de Freitas: Programa de Pós-Graduação em Biologia Animal, Universidade Federal do Rio Grande do Sul, Porto Alegre 91501-970, Brazil

DOI: https://doi.org/10.3390/ani12162091
Journal volume & issue: Vol. 12, no. 16
p. 2091

Abstract

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The Neotropical underground rodents of the genus Ctenomys (Rodentia: Ctenomyidae) comprise about 65 species, which harbor the most significant chromosomal variation among mammals (2n = 10 to 2n = 70). Among them, C. minutus stands out with 45 different cytotypes already identified, among which, seven parental ones, named A to G, are parapatrically distributed in the coastal plains of Southern Brazil. Looking for possible causes that led to such extensive karyotype diversification, we performed chromosomal mapping of different repetitive DNAs, including microsatellites and long interspersed element-1 (LINE-1) retrotransposons in the seven parental cytotypes. Although microsatellites were found mainly in the centromeric and telomeric regions of the chromosomes, different patterns occur for each cytotype, thus revealing specific features. Likewise, the LINE-1-like retrotransposons also showed a differential distribution for each cytotype, which may be linked to stochastic loss of LINE-1 in some populations. Here, microsatellite motifs (A)30, (C)30, (CA)15, (CAC)10, (CAG)10, (CGG)10, (GA)15, and (GAG)10 could be mapped to fusion of chromosomes 20/17, fission and inversion in the short arm of chromosome 2, fusion of chromosomes 23/19, and different combinations of centric and tandem fusions of chromosomes 22/24/16. These data provide evidence for a correlation between repetitive genomic content and localization of evolutionary breakpoints and highlight their direct impact in promoting chromosomal rearrangements.

Published in Animals

ISSN: 2076-2615 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Agriculture: Animal culture: Veterinary medicine; Science: Zoology
Website: http://www.mdpi.com/journal/animals/

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