Atlantic moonfishes: independent pathways of karyotypic and morphological differentiation

Jacobina, Uedson Pereira; Vicari, Marcelo Ricardo; Martínez, P.; Cioffi, Marcelo de Bello; Bertollo, Luiz Antônio Carlos; Molina, Wagner Franco

doi:10.1007/s10152-012-0338-8

Cited by 14 publications

(13 citation statements)

References 39 publications

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“…Among the repetitive DNAs, rDNA has a major role in karyotype diversification. In fact, species from various fish families exhibit 18S and 5S rDNAs sequences involved in chromosome fusion points (Molina and Galetti 2002, Ziemniczak 2011, Jacobina et al 2013, Getlekha et al 2016), indicating their probable involvement in the chromosomal reorganization. In this sense, the presence of an 18S rDNA site in the interstitial position on pair 5 in Halichoeres radiatus , in contrast to its terminal position in the homeologous chromosomes of the remaining species, puts in evidence a cryptic paracentric inversion in that chromosome pair.…”

Section: Discussionmentioning

confidence: 99%

Co-located 18S/5S rDNA arrays: an ancient and unusual chromosomal trait in Julidini species (Labridae, Perciformes)

Amorim¹,

Cioffi²,

Bertollo³

et al. 2016

CCG

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Wrasses (Labridae) are extremely diversified marine fishes, whose species exhibit complex interactions with the reef environment. They are widely distributed in the Indian, Pacific and Atlantic oceans. Their species have displayed a number of karyotypic divergent processes, including chromosomal regions with complex structural organization. Current cytogenetic information for this family is phylogenetically and geographically limited and mainly based on conventional cytogenetic techniques. Here, the distribution patterns of heterochromatin, GC-specific chromosome regions and Ag-NORs, and the organization of 18S and 5S rDNA sites of the Atlantic species Thalassoma noronhanum (Boulenger, 1890), Halichoeres poeyi (Steindachner, 1867), Halichoeres radiatus (Linnaeus, 1758), Halichoeres brasiliensis (Bloch, 1791) and Halichoeres penrosei Starks, 1913, belonging to the tribe Julidini were analyzed. All the species exhibited 2n=48 chromosomes with variation in the number of chromosome arms among genera. Thalassoma noronhanum has 2m+46a, while species of the genus Halichoeres Rüppell, 1835 share karyotypes with 48 acrocentric chromosomes. The Halichoeres species exhibit differences in the heterochromatin distribution patterns and in the number and distribution of 18S and 5S rDNA sites. The occurrence of 18S/5S rDNA syntenic arrangements in all the species indicates a functionally stable and adaptive genomic organization. The phylogenetic sharing of this rDNA organization highlights a marked and unusual chromosomal singularity inside the family Labridae.

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Section: Discussionmentioning

confidence: 99%

Co-located 18S/5S rDNA arrays: an ancient and unusual chromosomal trait in Julidini species (Labridae, Perciformes)

Amorim¹,

Cioffi²,

Bertollo³

et al. 2016

CCG

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“…In some genera, such as Trachinotus (NF = 52-58) and Trachurus (NF = 50-66), pericentric inversions have played an important role in the karyotype diversification (Murofushi and Yoshida, 1979;Caputo et al, 1996;Rodrigues et al, 2007, Jacobina et al, 2012aAccioly et al, 2012). Moreover, other sporadic mechanisms may have contributed to the chromosomal evolution of this group, particularly Robertsonian translocations, which are found in Trachurus, Seriola, and Selene (Vitturi et al, 1986;Jacobina et al, 2012b).…”

Section: Discussionmentioning

confidence: 99%

Physical mapping of 18S and 5S genes in pelagic species of the genera Caranx and Carangoides (Carangidae)

Jacobina¹,

Bertollo²,

Cioffi³

et al. 2014

Genet. Mol. Res.

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ABSTRACT. In Carangidae, Caranx is taxonomically controversial because of slight morphological differences among species, as well as because of its relationship with the genus Carangoides. Cytogenetic data has contributed to taxonomic and phylogenetic classification for some groups of fish. In this study, we examined the chromosomes of Caranx latus, Caranx lugubris, and Carangoides bartholomaei using classical methods, including conventional staining, C-banding, silver staining for nuclear organizer regions, base-specific fluorochrome, and 18S and 5S ribosomal sequence mapping using in situ hybridization. These 3 species showed chromosome numbers of 2n = 48, simple nuclear organizer regions (pair 1), and mainly centromeric heterochomatin. However, C. latus (NF = 50) and C. bartholomaei (NF = 50) showed a structurally conserved karyotype compared with C. lugubris (NF = 54), with a larger number of 2-armed chromosomes. The richness of GC-positive heterochromatic segments and sites in 5S rDNA in specific locations compared to the other 2 species reinforce 9629 ©FUNPEC-RP www.funpecrp.com.br Genetics and Molecular Research 13 (4): 9628-9635 (2014) rDNA genes in the chromosomes of Caranx and Carangoides spp the higher evolutionary dynamism in C. lugubris. Cytogenetic aspects shared between C. latus and C. bartholomaei confirm the remarkable phylogenetic proximity between these genera.

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“…Thus, they may evolve independently and are subject to individual selective pressure (Amarasinghe and Carlson, 1998). Occasionally, in Perciformes, both the 5S and 18S rDNA sites may be diversified (Motta-Neto et al, 2012), standing out not only as efficient species markers but also as population markers , and may be involved in chromosome rearrangements (Jacobina et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Evolutionary dynamics of rDNA genes on chromosomes of the Eucinostomus fishes: cytotaxonomic and karyoevolutive implications

et al. 2014

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ABSTRACT. Several chromosomal features of Gerreidae fish have been found to be conserved. In this group, it is unclear whether the high degree of chromosomal stasis is maintained when analyzing more dynamic regions of chromosomes, such as rDNA sites that generally show a higher level of variability. Thus, cytogenetic analyses were performed on 3 Atlantic species of the genus Eucinostomus using conventional banding (C-banding, Ag-NOR), AT-and GC-specific fluorochromes, and fluorescence in situ hybridization mapping of telomeric sequences and 5S and 18S rDNA sites. The results showed that although the karyotypical macrostructure of these species is similar (2n = 48 chromosomes, simple Ag-NORs seemingly located on homeologous chromosomes and centromeric heterochromatin pattern), there are differences in the positions of rDNA subunits 5S and 18S. Thus, the ribosomal sites have demonstrated to be effective cytotaxonomic markers in Eucinostomus, presenting a different evolutionary dynamics in relation to other chromosomal regions and allowing access to important evolutionary changes in this group.

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Atlantic moonfishes: independent pathways of karyotypic and morphological differentiation

Cited by 14 publications

References 39 publications

Co-located 18S/5S rDNA arrays: an ancient and unusual chromosomal trait in Julidini species (Labridae, Perciformes)

Co-located 18S/5S rDNA arrays: an ancient and unusual chromosomal trait in Julidini species (Labridae, Perciformes)

Physical mapping of 18S and 5S genes in pelagic species of the genera Caranx and Carangoides (Carangidae)

Evolutionary dynamics of rDNA genes on chromosomes of the Eucinostomus fishes: cytotaxonomic and karyoevolutive implications

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