Chromosomal Evolution in Aspredinidae
Posted: 28 Nov 2020, 18:43
Ferreira, M., de Jesus, I. S., Viana, P. F., Garcia, C., Matoso, D. A., Cioffi, M. B., ... & Feldberg, E. (2020). Chromosomal Evolution in Aspredinidae (Teleostei, Siluriformes): Insights on Intra-and Interspecific Relationships with Related Groups. Cytogenetic and Genome Research, 1-15.
https://doi.org/10.1159/000511125
https://www.karger.com/Article/Abstract/511125
https://doi.org/10.1159/000511125
https://www.karger.com/Article/Abstract/511125
Abstract
The family Aspredinidae comprises a clade of complex systematic relationships, both from molecular and morphological approaches. In this study, conventional and molecular cytogenetic studies coupled with nucleotide sequencing were performed in 6 Aspredininae species (, Bunocephalus cf. aloikae, , Bunocephalus aff. coracoideus, , and ) from different locations of the Amazon hydrographic basin. Our results showed highly divergent diploid numbers (2n) among the species, ranging from 49 to 74, including the occurrence of an XX/X0 sex chromosome system. A neighbor-joining phylogram based on the cytochrome c oxidase I (COI) showed that is not a monophyletic clade, but closely related to B. verrucosus. The karyotypic data associated with COI suggest an ancestral karyotype for Aspredinidae with a reduced 2n, composed of bi-armed chromosomes and a trend toward chromosomal fissions resulting in higher diploid number karyotypes, mainly composed of acrocentric chromosomes. Evolutionary relationships were discussed under a phylogenetic context with related species from different Siluriformes families. The karyotype features and chromosomal diversity of Aspredinidae show an amazing differentiation, making this family a remarkable model for investigating the evolutionary dynamics in siluriforms as well as in fish as a whole.
