Chromosomal organization of repetitive DNA sequences in Astyanax bockmanni (Teleostei, Characiformes): dispersive location, association and co-localization in the genome

Repetitive DNA sequences constitute a great portion of the genome of eukaryotes and are considered key components to comprehend evolutionary mechanisms and karyotypic differentiation. Aiming to contribute to the knowledge of chromosome structure and organization of some repetitive DNA classes in the...

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Bibliographic Details
Published in:Genetica 2013-09, Vol.141 (7-9), p.329-336
Main Authors: Silva, Duílio M. Z. A, Pansonato-Alves, José Carlos, Utsunomia, Ricardo, Daniel, Sandro Natal, Hashimoto, Diogo Teruo, Oliveira, Claudio, Porto-Foresti, Fabio, Foresti, Fausto
Format: Article
Language:English
Subjects:
allopatry
Animal Genetics and Genomics
Animals
Astyanax
Biomedical and Life Sciences
Characiformes
Characiformes - genetics
chromosome morphology
Chromosomes
Chromosomes - genetics
Conserved Sequence
cytogenetic analysis
DNA Copy Number Variations
DNA Transposable Elements
Evolution, Molecular
Evolutionary Biology
fish
fluorescence in situ hybridization
genes
Genome
heterochromatin
histones
Histones - genetics
Human Genetics
Life Sciences
Microbial Genetics and Genomics
Plant Genetics and Genomics
ribosomal DNA
RNA, Ribosomal, 18S - genetics
RNA, Ribosomal, 5S - genetics
Teleostei
Terminal Repeat Sequences
transposons
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Summary:Repetitive DNA sequences constitute a great portion of the genome of eukaryotes and are considered key components to comprehend evolutionary mechanisms and karyotypic differentiation. Aiming to contribute to the knowledge of chromosome structure and organization of some repetitive DNA classes in the fish genome, chromosomes of two allopatric populations of Astyanax bockmanni were analyzed using classic cytogenetics techniques and fluorescent in situ hybridization, with probes for ribosomal DNA sequences, histone DNA and transposable elements. These Astyanax populations showed the same diploid number (2n = 50), however with differences in chromosome morphology, distribution of constitutive heterochromatin, and location of 18S rDNA and retroelement Rex3 sites. In contrast, sites for 5S rDNA and H1, H3 and H4 histones showed to be co-located and highly conserved. Our results indicate that dispersion and variability of 18S rDNA and heterochromatin sites are not associated with macro rearrangements in the chromosome structure of these populations. Similarly, distinct evolutionary mechanisms would act upon histone genes and 5S rDNA, contributing to chromosomal association and co-location of these sequences. Data obtained indicate that distinct mechanisms drive the spreading of repetitive DNAs in the genome of A. bockmanni. Also, mobile elements may account for the polymorphism of the major rDNA sites and heterochromatin in this genus.
ISSN:0016-6707
1573-6857
DOI:10.1007/s10709-013-9732-7