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Cytogenetic analysis of three catfish species of the family Pseudopimelodidae (Teleostei, Siluriformes)

Abstract

Cytogenetic analyses performed in Cephalosilurus apurensis, Microglanis aff. cottoides and Pseudopimelodus bufonius revealed that the three species have 2n = 54 chromosomes: C. apurensis presented six metacentric (M), 28 submetacentric (SM), 14 subtelolocentric (ST), and six acrocentric (A) chromosomes, while M. aff. cottoides showed 10M, 32SM, 10ST and 2A, and P. bufonius had 12M, 30SM and 12ST. The nucleolus organizer regions (NORs) were present on the short arm of a middle-sized ST pair, identified as pair 19, in C. apurensis NORs were found on the short arm of a middle-sized ST (pair 23) and on the long arm of a middle-sized ST (pair 22) in M. aff. cotttoides and on the short arm of three middle-sized ST pairs, identified as pairs 9, 10 and 11, in P. bufonius. C-banding revealed a very small amount of constitutive heterochromatin in the chromosomes of all species, including the NORs. The occurrence of 2n = 54 in all species of the family Pseudopimelodidae and its absence among species of the closely related Pimelodidae and Heptapteridae may be important in identifying Pseudopimelodidae species.

karyotype; chromosomes; C-banding; Ag-NOR; fish


ANIMAL GENETICS

SHORT COMMUNICATION

Cytogenetic analysis of three catfish species of the family Pseudopimelodidae (Teleostei, Siluriformes)

Emanuel Ricardo Monteiro MartinezI; Mauro NirchioII; Angel GranadoIII; Fausto ForestiI; Claudio OliveiraI

IDepartamento de Morfologia, Instituto de Biociências, Universidade Estadual Paulista 'Julio de Mesquita Filho', Botucatu, SP, Brazil

IIEscuela de Ciencias Aplicadas del Mar, Universidad de Oriente, Isla de Margarita, Venezuela

IIIInstituto Limnológico, Universidad de Oriente, Caicara del Orinoco, Bolívar, Venezuela

Send correspondence to Send correspondence to: Claudio Oliveira Departamento de Morfologia, Instituto de Biociências, Universidade Estadual Paulista 18618-000 Botucatu, SP, Brazil E-mail: claudio@ibb.unesp.br

ABSTRACT

Cytogenetic analyses performed in Cephalosilurus apurensis, Microglanis aff. cottoides and Pseudopimelodus bufonius revealed that the three species have 2n = 54 chromosomes: C. apurensis presented six metacentric (M), 28 submetacentric (SM), 14 subtelolocentric (ST), and six acrocentric (A) chromosomes, while M. aff. cottoides showed 10M, 32SM, 10ST and 2A, and P. bufonius had 12M, 30SM and 12ST. The nucleolus organizer regions (NORs) were present on the short arm of a middle-sized ST pair, identified as pair 19, in C. apurensis NORs were found on the short arm of a middle-sized ST (pair 23) and on the long arm of a middle-sized ST (pair 22) in M. aff. cotttoides and on the short arm of three middle-sized ST pairs, identified as pairs 9, 10 and 11, in P. bufonius. C-banding revealed a very small amount of constitutive heterochromatin in the chromosomes of all species, including the NORs. The occurrence of 2n = 54 in all species of the family Pseudopimelodidae and its absence among species of the closely related Pimelodidae and Heptapteridae may be important in identifying Pseudopimelodidae species.

Key words: karyotype, chromosomes, C-banding, Ag-NOR, fish.

The order Siluriformes (catfishes) has 3,093 species, divided into 36 families and 478 genera, and distributed worldwide, except for the coldest areas in the Northern and Southern hemispheres (Ferraris, 2007). Recent phylogenetic studies showed that the old family Pimelodidae comprised three monophyletic units: Pimelodidae, Heptapteridae and Pseudopimelodidae (Lundberg et al., 1991; de Pinna, 1998). According to Ferraris (2007), Pseudopimelodidae is composed of the genera Batrochoglanis (five species), Cephalosilurus (four species), Lophiosilurus (one species), Microglanis (14 species) and Pseudopimelodus (five species). A new genus and species, Cruciglanis pacifisi, has been recently described by Ortega-Lara and Lehmann (2006). This family is widely distributed in South America and is considered the least known family among the naked Neotropical freshwater catfishes (Shibatta, 2003). Currently, the only species to have their karyotypes reported are Microglanis garavelloi (cited as M. cottoides - Vissotto et al., 1999a) and Pseudopimelodus mangurus (Martinez et al., 2004). The objective of the present study was to analyze the karyotypes of Cephalosilurus apurensis, Microglanis aff. cottoides and Pseudopimelodus bufonius.

The following specimens were karyotyped: one male specimen of Cephalosilurus apurensis from the Orinoco River, Caicara del Orinoco, Bolívar, Venezuela (07°38'11.6" N, 66°19'04.2" W, LBP 3034); two males and four females of Microglanis aff. cotttoides from Ribeirão Cavalo Stream, Jaraguá do Sul, Santa Catarina, Brazil (26°28,250' S, 49°10,958' W, LBP 731) and two males and two females of Pseudopimelodus bufonius from the Amazon (aquarium trade, LBP 2345). The specimens were identified and deposited in the fish collection of the Laboratório de Biologia e Genética de Peixes (LBP), Departamento de Morfologia, Instituto de Biociências, Universidade Estadual Paulista, São Paulo, Brazil.

Mitotic chromosome preparations were obtained according to the technique described by Foresti et al. (1993). Nucleolar organizer regions (Ag-NORs) were revealed by the silver-staining method (Howell and Black, 1980) and C-banding was performed according to Sumner (1972). The chromosomes were classified according to their arm ratios as metacentrics (M), submetacentrics (SM), subtelocentrics (ST), and acrocentrics (A) (Levan et al., 1964).

The three species analyzed possessed 2n = 54 chromosomes. Cephalosilurus apurensis had 6M, 28SM, 14ST and 6A (Figure 1a), Microglanis aff. cottoides presented 10M, 32SM, 10ST and 2A (Figure 2a) and Pseudopimelodus bufonius showed 12M, 30SM and 12ST (Figure 3a). A 2n = 54 is characteristic for the family Pseudopimelodidae and the karyotypes of C. apurensis and M. aff. cottoides are similar to those observed in other species of the family, which typically have chromosomes of all morphological types, except for M. garavelloi and P. bufonius that do not have any acrocentric chromosome (Table 1).







The 2n = 54 present in Pseudopimelodidae contrasts with the modal 2n = 56 found in most catfish families (Oliveira and Gosztonyi, 2000) and specially with the diploid numbers found among representatives of Heptapteridae and Pimelodidae, which are closely related to Pseudopimelodidae (Sullivan et al., 2006) (Table 1).

Pseudopimelodid species have single or multiple Ag-NORs (Table 1). Cephalosilurus apurensis showed a single pair of Ag-NORs on the short arms of a middle-sized ST pair, identified as pair 19 (Figure 1a). The remaining pseudopimelodid species analyzed also had a single Ag-NOR: Lophiosilurus alexandrii showed Ag-NORs on the short arm of a SM (Marques, Garcia and Moreira Filho, personal communication); Microglanis garavelloi (Vissotto et al., 1999a) had Ag-NORs on the long arm of M; and Pseudopimelodus mangurus (Martinez et al., 2004) presented Ag-NORs on the short arm of SM/ST (Table 1). Single Ag-NORs were also identified in all species of Pimelodidae and all but one species of Heptapteridae (Table 1). This is also the most common condition in Siluriformes (Oliveira and Gosztonyi, 2000) and even in Teleostei (Klinkhardt, 1998). The Ag-NORs of M. aff. cotttoides were found on the short arm of a middle-sized ST pair, identified as pair 23, and on the long arm of another middle-sized ST pair, identified as pair 22 (Figure 2a). The Ag-NORs of P. bufonius occurred on the short arm of three middle-sized ST pairs, identified as pairs 9, 10 and 11 (Figure 3a). Multiple Ag-NORs were identified in one species of Heptapteridae (Vissotto et al., 1999a) and were not found among Pimelodidae (Table 1). The number and position of NORs are species-specific and do not seem to follow any pattern during karyotypic evolution.

C-banding showed the occurrence of a small amount of constitutive heterochromatin in the chromosomes of the three species (Figures 1b, 2b, 3b). In Cephalosilurus apurensis, positive C-banded segments were observed on the short arms of the largest ST pair (pair 19) and in the Ag-NORs. In Pseudopimelodus bufonius, C-banding evidenced segments on the short arms of the six larger SM pairs (pairs 9, 10, 11, 12, 13 and 14) and in Microglanis aff. cottoides, C-banding revealed positive segments on the short arms of one large ST pair (pair 23) and on the long arms of several ST pairs. The small amount of heterochromatic segments in the chromosomes of P. bufonius, M. aff. cottoides, and C. apurensis, as well as in other representatives of the family Pseudopimelodidae, P. mangurus (Martinez et al., 2004), and M. garavelloi (Vissotto et al., 1999a), suggests that this may be a characteristic of this catfish family. The occurrence of a very small amount of C-banded positive segments reported herein resembles the data reported for many teleost species, including siluriforms (Gold et al., 1990).

The presence of 2n = 54 chromosomes may be an important characteristic to differentiate Pseudopimelodidae species from species of Heptapteridae and Pimelodidae. Further analysis of additional Pseudopimelodidae species with different staining techniques will provide important information for a better understanding of the chromosome evolution in the group and will help to confirm the conservative nature of the diploid number in this fish family.

Acknowledgments

The authors are grateful to O.A. Shibatta for assistance in identifying the specimens and to R. Devidé for technical assistance. This study was supported by the Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP), Conselho Nacional de Investigação Científica (CNPq) and Coordenadoria de Apoio à Pós-Graduação e Pesquisa (CAPES).

Received: November 14, 2007; Accepted: March 10, 2008.

Associate Editor: Yatiyo Yonenaga-Yassuda

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  • Send correspondence to:
    Claudio Oliveira
    Departamento de Morfologia, Instituto de Biociências, Universidade Estadual Paulista
    18618-000 Botucatu, SP, Brazil
    E-mail:
  • Publication Dates

    • Publication in this collection
      18 Aug 2008
    • Date of issue
      2008

    History

    • Received
      14 Nov 2007
    • Accepted
      10 Mar 2008
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