Abstract
Lebiasinidae is a small fish family composed by miniature to small-sized fishes with few cytogenetic data (most of them limited to descriptions of diploid chromosome numbers), thus preventing any evolutionary comparative studies at the chromosomal level. In the present study, we are providing, the first cytogenetic data for the red spotted tetra, Copeina guttata, including the standard karyotype, C-banding, repetitive DNA mapping by fluorescence in situ hybridization (FISH) and comparative genomic hybridization (CGH), providing chromosomal patterns and novel insights into the karyotype differentiation of the family. Males and females share diploid chromosome number 2n = 42 and karyotype composed of 2 metacentric (m), 4 submetacentric (sm) and 36 subtelocentric to acrocentric (st-a) chromosomes. Blocks of constitutive heterochromatin were observed in the centromeric and interstitial regions of several chromosomes, in addition to a remarkably large distal block, heteromorphic in size, which fully corresponded with the 18S rDNA sites in the fourth chromosomal pair. This overlap was confirmed by 5S/18S rDNA dual-color FISH. On the other hand, 5S rDNA clusters were situated in the long and short arms of the 2nd and 15th pairs, respectively. No sex-linked karyotype differences were revealed by male/female CGH experiments. The genomic probes from other two lebiasinid species, Lebiasina melanoguttata and Pyrrhulina brevis, showed positive hybridization signals only in the NOR region in the genome of C. guttata. We demonstrated that karyotype diversification in lebiasinids was accompanied by a series of structural and numeric chromosome rearrangements of different types, including particularly fusions and fissions.
Highlights
The Neotropical freshwater ichthyofauna comprises approximately 16% of the worldwide fish biodiversity, encompassing about 5,200 presently recognized species in 17 orders [1,2]
The aim of the present study was to extend the knowledge on the trends and underlying mechanisms of karyotype differentiation in Lebiasinidae, by analyzing the karyotype organization of a representative of Copeina, a genus not analyzed to date, using both conventional (Giemsa staining and C-banding) and molecular cytogenetic procedures
We provide the first molecular-cytogenetical approach in Copeina guttata, evidencing a karyotype composed of 2n = 42 chromosomes (2m+4sm+36st/ a), which fits in the range of 2n already known for Lebiasinidae[41]
Summary
The Neotropical freshwater ichthyofauna comprises approximately 16% of the worldwide fish biodiversity, encompassing about 5,200 presently recognized species in 17 orders [1,2]. Methodological advances in molecular cytogenetics, namely diverse variants of fluorescence in situ hybridization (FISH), allow to decipher karyotype/ genome evolution among related species, including the degree of preserved conserved synteny and the characterization of structural and functional organization of genomes [9,10,11,12,13,14,15,16,17,18,19,20] These approaches already helped to document cryptic species diversification [21,22,23,24,25,26,27,28,29] as well as to track remarkable karyotype stability [30,31], the response of the genome dynamics to environmental cues [32] or its correlation with geographic distribution [33]. The family comprises seven genera and about 74 species, distributed in two subfamilies: Lebiasininae, with the Derhamia, Lebiasina and Piabucina; and more diverse Pyrrhulininae, with Copeina, Copella, Nannostomus and Pyrrhulina [35,36]
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