SciELO - Scientific Electronic Library Online

 
vol.20 número3Extraction of genomic DNA from Melipona quadrifasciata (Hymenoptera: Apidae, Meliponinae)Estimates of genetic and phenotypic parameters in a segregant population of rice irrigated by continuous flooding índice de autoresíndice de assuntospesquisa de artigos
Home Pagelista alfabética de periódicos  

Brazilian Journal of Genetics

versão impressa ISSN 0100-8455

Braz. J. Genet. v.20 n.3 Ribeirão Preto set. 1997

http://dx.doi.org/10.1590/S0100-84551997000300012 

SHORT COMMUNICATION

First description of microchromosome in the Anostomidae fish Schizodon nasutus from Argentina

M.C. Pastori, A.S. Fenocchio and P.A. López

Laboratorio de Citogenética General, Departamento de Genética,
Facultad de Ciencias Exactas Químicas y Naturales. U.Na.M. Félix de Azara 1552.
3300 Posadas, Misiones, Argentina. Send correspondence to M.C.P.

 

ABSTRACT

Thirty-six specimens of Schizodon nasutus (Anostomidae-Characiformes) from the middle Paraná River (Posadas, Argentina) were analyzed cytogenetically. The karyotype of this species was similar to those described for this species in the literature. C-banding technique showed a rich heterochromatic pattern relative to other Anostomidae species. The NORs were located on one chromosome pair in terminal position and showed a very marked size heteromorphism. A microchromosome was observed with a frequency of about 20% in the sample studied. This additional element was punctiform, negative C-band, and constant in all metaphase plates of the seven carriers. The present study is the first karyotypic approach to Schizodon nasutus from Argentina and the first description of microchromosome in Anostomidae.

 

INTRODUCTION

The Anostomidae belong to a major group of Neotropical Characiforms that include several families. Anostomids form a single phylogenetic group with Prochilodontidae, Curimatidae and Chilodontidae (Vari, 1983). These families share similar ethological and karyotypic characteristics (i.e., migratory habits, diploid number, fundamental number, chromosome types, predominance of single NORs) (Bertollo et al., 1986; Oliveira et al., 1988; Oliveira and Foresti, 1993).

The Anostomidae include several genera (Leporinus, Leporellus, Schizodon, Abramites and Anostomus). The same chromosome number (2n = 54) and general karyotypic structure was determined for all of them. Till now there are no descriptions of supernu- merary chromosomes in this family (for a review see Salvador and Moreira Filho, 1992). The genus Schizodon has been studied cytogenetically by several authors in Brazil (Galetti Jr. et al., 1981, 1984, 1991; Venere and Galetti Jr., 1989). In Argentine rivers only four species S. vitattus, S. platae, S. fasciatus and S. nasutus of this genus have been found (Ringuelet et al., 1967).

 

MATERIAL AND METHODS

Thirty-six specimens of Schizodon nasutus (18 males, 12 females and six individuals of undetermined sex) from the middle Paraná River (Posadas, Misiones, Argentina) were analyzed cytogenetically.

Mitotic chromosome preparations were obtained from kidney cells using air drying techniques (Bertollo et al., 1978; Foresti et al., 1993). C-banding was performed by the method of Sumner (1972) and NORs were obtained by the technique of Howell and Black (1980). The chromosomes were classified according to Guerra (1986).

 

RESULTS AND DISCUSSION

The modal diploid number observed in S. nasutus from the Paraná River (Posadas, Argentina) is 54 chromosomes, with FN = 108, 16 pairs of metacentric and 11 pairs of submetacentric chromosomes. (Figure 1a).

Figure 1 - Schizodon nasutus. a, Metaphase plate. The arrowhead shows the microchromosome. b, C-banding. c and d, NOR banding. The arrowheads indicate the NOR’s location.

 

The C-banding technique showed a somewhat rich heterochromatic pattern, with clear blocks in centromeric, pericentromeric and terminal regions of several chromosome pairs (Figure 1b). A similar situation was observed by Galetti Jr. et al. (1991) and Mestriner (1993) in other Anostomidae species, especially in Brazilian populations of S. nasutus (Galetti Jr. et al., 1981). NORs in this family could be used as a taxonomic character (Galetti Jr. et al., 1984). In S. nasutus they were located in a terminal position, in one chromosome pair. These regions showed a very marked size heteromorphism and in some cases only one chromosome was stained by the silver salts (Figure 1c-d). The present results evidence the karyotypic homogeneity within Anostomidae, showing that S. nasutus from Brazil and Argentina share practically the same chromosome characteristics.

Meanwhile, a microchromosome was found in seven of the 36 specimens (Figure 1a), so representing a non-accidental occurrence in the population studied. This additional element appears as negative in C-banding, punctiform and constant in all metaphase plates of the carriers, representing the first description of such chromosome in Anostomidae (for review see Salvador and Moreira Filho, 1992). Accessory microchromosomes have been found in species of Prochilodontidae (Pauls and Bertollo, 1983, 1990) and Curimatidae (Venere, 1991; Oliveira and Foresti, 1993) families that are included in the same phylogenetic group.

Oliveira and Foresti (1993) have advanced at least two hypothesis about the origin of B chromosomes detected by them in Curimatidae and by Pauls and Bertollo (1983, 1990) in Prochilodontidae. The first hypothesis is that the Bs were present in the ancestral lineage which originated the Curimatidae. On the other hand, these chromosomes could also be present in the original lineage from which the Prochilodontidae and the Curimatidae arose. So, the Bs were probably lost in most Curimatidae and conserved in some species of Prochilodontidae (Pauls and Bertollo, 1990). By that time, it is difficult to suggest a hypothesis about the accessory element in S. nasutus, as this is the first case observed for the Anostomidae. It might be of recent origin, arising independently in the population studied here.

 

ACKNOWLEDGMENTS

The authors are grateful to Dr. L.A.C. Bertollo and P.M. Galetti Jr. for reading the manuscript and to G.M. Duarte for translation of the text.

 

RESUMO

Trinta e seis espécimens de Schizodon nasutus (Anostomidae-Characiformes) do médio Paraná (Posadas, Argentina) foram analisados citogeneticamente. O cariótipo encontrado foi semelhante aos descritos para esta espécie na literatura. A técnica de bandamento C mostrou um rico padrão heterocromático em relação a outras espécies de Anostomidae. As NORs localizaram-se em um par cromossômico em posição terminal e mostraram um acentuado heteromorfismo de tamanho. Um microcromossomo foi observado com freqüência de cerca de 20% na amostra estudada. Este elemento adicional era puntiforme, bandamento C negativo e constante em todas as placas metafásicas dos sete portadores. O presente estudo é o primeiro com abordagem cariotípica em Schizodon nasutus da Argentina e a primeira descrição de microcromossomo em Anostomidae.

 

REFERENCES

Bertollo, L.A.C., Takahashi, C.S. and Moreira-Filho, O. (1978). Cytotaxonomic considerations on Hoplias lacerdae (Pisces, Erythrinidae). Rev. Bras. Genet. 1: 103-112.         [ Links ]

Bertollo, L.A.C., Moreira Filho, O. and Galetti Jr., P.M. (1986). Cytogenetics and taxonomy: considerations based on chromosome studies of freshwater fish. J. Fish. Biol. 28: 153-159.         [ Links ]

Foresti, F., Oliveira, C. and Almeida-Toledo, L.F. (1993). A method for chromosome preparations from large fish specimens using in vitro short-term treatment with colchicine. Experientia 49: 810-813.         [ Links ]

Galletti Jr., P.M., Foresti, F. , Bertollo, L.A.C. and Moreira Filho, O. (1981). Karyotypic similarity in three genera (Leporinus, Leporellus and Schizodon) of the family Anostomidae (Pisces-Teleostei). Rev. Bras. Genet. 4: 11-15.         [ Links ]

Galletti Jr., P.M., Foresti, F., Bertollo, L.A.C. and Moreira Filho, O. (1984). Characterization of eight species of Anostomidae (Cypriniformes) fish on the basis of the nucleolar organizing region. Caryologia 37: 401-406.         [ Links ]

Galletti Jr., P.M., Mestriner, C.A., Venere, P.C. and Foresti, F. (1991). Heterochromatin and karyotype reorganization in fish of the family Anostomidae (Characiformes). Cytogenet. Cell Genet. 56: 116-121.         [ Links ]

Guerra, M.S. (1986). Reviewing the chromosome nomenclature of Levan et al. Rev. Bras. Genet. 9: 741-743.         [ Links ]

Howell, W.M. and Black, D.A. (1980). Controlled silver-staining of nucleolus organizer regions with a protective colloidal developer: a 1-step method. Experientia 36: 1014-1015.         [ Links ]

Mestriner, C.A. (1993). Análise das regiões organizadoras de nucléolos e investigação do sistema XX/XY descrito para Leporinus lacustris (Pisces, Anostomidae). Master’s thesis, Universidade Federal de São Carlos, São Carlos, SP, Brasil.         [ Links ]

Oliveira, C. and Foresti, F. (1993). Occurrence of supernumerary microchromosomes in Steindachnerina insculpta (Pisces, Characiformes, Curimatidae). Cytobios 76: 183-186.         [ Links ]

Oliveira, C., Almeida-Toledo, L., Foresti, F., Britski, H. and Toledo Filho, A. (1988). Choromosome formulae of Neotropical freshwater fishes. Rev. Bras. Genet. 11: 577-624.         [ Links ]

Pauls, E. and Bertollo, L.A.C. (1983). Evidence for a system of supernumerary chromosomes in Prochilodus scrofa Steindachner,1881 (Pisces, Prochilodontidae). Caryologia 36: 307-314.         [ Links ]

Pauls, E. and Bertollo, L.A.C. (1990). Distribution of a supernumerary chromosome system and aspects of karyotypic evolution in the genus Prochilodus (Pisces, Prochilodontidae). Genetica 81: 117-123.         [ Links ]

Ringuelet, R.A., Aramburu, R.H. and Alonso de Aramburu, A. (1967). Los peces argentinos de agua dulce. Librart; Comisión de Investigación Cientifica, Provincia de Buenos Aires, La Plata, Argentina, pp. 209-212.         [ Links ]

Salvador, L.B. and Moreira Filho, O. (1992). B-chromosomes in Astyanax scabripinnis (Pisces, Characidae). Heredity 69: 50-56.         [ Links ]

Sumner, A.T. (1972). A simple technique for demonstrating centromeric heterochromatin. Expl. Cell. Res. 75: 304-306.         [ Links ]

Vari, R.P. (1983). Phylogenetic relationships of the families Curimatidae, Prochilodontidae, Anostomidae and Chilodontidae (Pisces, Characiformes). Smithson. Contrib. Zool. 378: 1-60.         [ Links ]

Venere, P.C. (1991). Citogenética comparativa de peixes da família Curimatidae (Characiformes). Master’s thesis, Universidade Federal de São Carlos, São Carlos, SP, Brasil.         [ Links ]

Venere, P.C. and Galetti Jr., P.M. (1989). Chromosome evolution and phylogenetic relationships of some Neotropical Characiformes of the family Curimatidae. Rev. Bras. Genet. 12: 17-25.         [ Links ]

 

 

(Received November 22, 1996)