Taxonomic Diversity Not Associated with Gross Karyotype Differentiation: The Case of Bighead Carps, Genus Hypophthalmichthys (Teleostei, Cypriniformes, Xenocyprididae).

Alexandr Sember,Martin Knytl,Terumi Hatanaka,Vendula Šlechtová,Hiep Do Doan,Petr Ráb,Marcelo De Bello Cioffi,Šárka Pelikánová

doi:10.3390/genes11050479

Abstract

The bighead carps of the genus Hypophthalmichthys (H. molitrix and H. nobilis) are important aquaculture species. They were subjected to extensive multidisciplinary research, but with cytogenetics confined to conventional protocols only. Here, we employed Giemsa-/C-/CMA3- stainings and chromosomal mapping of multigene families and telomeric repeats. Both species shared (i) a diploid chromosome number 2n = 48 and the karyotype structure, (ii) low amount of constitutive heterochromatin, (iii) the absence of interstitial telomeric sites (ITSs), (iv) a single pair of 5S rDNA loci adjacent to one major rDNA cluster, and (v) a single pair of co-localized U1/U2 snDNA tandem repeats. Both species, on the other hand, differed in (i) the presence/absence of remarkable interstitial block of constitutive heterochromatin on the largest acrocentric pair 11 and (ii) the number of major (CMA3-positive) rDNA sites. Additionally, we applied here, for the first time, the conventional cytogenetics in H. harmandi, a species considered extinct in the wild and/or extensively cross-hybridized with H. molitrix. Its 2n and karyotype description match those found in the previous two species, while silver staining showed differences in distribution of major rDNA. The bighead carps thus represent another case of taxonomic diversity not associated with gross karyotype differentiation, where 2n and karyotype structure cannot help in distinguishing between genomes of closely related species. On the other hand, we demonstrated that two cytogenetic characters (distribution of constitutive heterochromatin and major rDNA) may be useful for diagnosis of pure species. The universality of these markers must be further verified by analyzing other pure populations of bighead carps.

Highlights

The bighead carps of the genus Hypophthalmichthys (Bleeker, 1860) represent a small, well-defined group of morphologically highly distinct and ecologically unique cyprinoid fishes [1] formerlyGenes 2020, 11, 479; doi:10.3390/genes11050479 www.mdpi.com/journal/genesGenes 2020, 11, 479 recognized as cyprinid subfamily Hypophthalmichthiynae
The systematic status of H. harmandi is not well understood at present, and while some authors [4] recognized it as a species distinct from H. molitrix, others [5] consider it as subspecies of silver carp only; both species differ in a number of morphological, physiological and reproductive characters
H. molitrix and H. nobilis displayed a very low content of constitutive heterochromatin concentrated in the pericentromeric chromosome regions, except for significantly heterochromatinized short (p) arms of the largest st chromosome pair in H. molitrix and additional interstitial block of heterochromatin on this pair in H. nobilis only (Figure 1b,d)

Summary

Introduction

The bighead carps of the genus Hypophthalmichthys (Bleeker, 1860) represent a small, well-defined group of morphologically highly distinct and ecologically unique cyprinoid fishes [1] formerlyGenes 2020, 11, 479; doi:10.3390/genes11050479 www.mdpi.com/journal/genesGenes 2020, 11, 479 recognized as cyprinid subfamily Hypophthalmichthiynae. The systematic status of H. harmandi is not well understood at present, and while some authors [4] recognized it as a species distinct from H. molitrix, others [5] consider it as subspecies of silver carp only; both species differ in a number of morphological, physiological and reproductive characters (for details, see Supplementary File 1: Text S1).

Methods

Results

Discussion

Conclusion