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1.
Braz. j. biol ; 76(2): 360-366, Apr.-June 2016. ilus
Article in English | VETINDEX | ID: vti-25589

ABSTRACT

Abstract The group Incertae sedis within the Characidae family currently includes 88 genera, previously included in the subfamily Tetragonopterinae. Among them is the genus Astyanax comprising a group of species with similar morphology and widely distributed in the Neotropics. Thus, the present study aimed to analyze the karyotype diversity in Astyanax species from different watersheds by conventional Giemsa staining, C-banding and fluorescence in situ hybridization (FISH rDNA 18S) probe.specimens of Astyanax aff. paranae belonging to the scabripinnis complex, Astyanax asunsionensis and Astyanax aff. bimaculatus were analyzed. Two sympatric karyomorphs were observed in Astyanax.aff paranae, one of them having2n=48andthe other one with 2n=50 chromosomes. Other population of this same species also presented 2n=50 chromosomes, but differing in the karyotype formula and with macro supernumerary chromosome found in 100% of the cells in about 80%of females analyzed. Two population of A. asuncionensis and one population of Astyanax. aff. bimaculatus, also showed a diploid number of 50 chromosomes, but also differing in their karyotype formulas. Therefore, A. asuncionensis was also characterized by intraspecific chromosome diversity. The C-banding analysis was able to demonstrate a distinctable to demonstrate a distinct pattern of heterochromatin differing A. asuncionensis from Astyanax aff. paranae and Astyanax aff. bimaculatus. The supernumerary chromosome of Astyanax aff. paranae proved completely heterochromatic. Only Astyanax.aff. bimaculatus multiple showed multiple sites of nucleolar organizing regions. The other species were characterized by having a simple system of NOR. These data contributes to the know ledge of the existing biodiversity in our fish fauna, here highlighted by the inter- and intraspecific chromosomal diversity in the genus Astyanax.(AU)


Resumo O grupo Incertae sedis, dentro da família Characidae inclui atualmente 88 gêneros, anteriormente incluídos na subfamília Tetragonopterinae. Dentre eles encontra-se o gênero Astyanax que compreende um grupo de espécies com morfologia similar e com ampla distribuição na região Neotropical. Assim, o presente estudo teve como objetivo analisar a diversidade cariotípica em espécies de Astyanax de diferentes bacias hidrográficas, através da coloração convencional com Giemsa, bandeamento C e hibridização fluorescente in situ (FISH com rDNA 18S). Exemplares de Astyanax aff. paranae, pertencentes ao complexo scabripinnis; Astyanax asunsionensise Astyanax aff. bimaculatus foram analisados. Dois cariomorfos foram observados em A. aff. paranae, um deles com 2n=48 cromossomos e outro com 2n=50 cromossomos. Outra população apresentou 2n=50 cromossomos, ambas diferindo na fórmula cariotípica e um cromossomo supranumerário encontrado em 100% das células, em aproximadamente 80% das fêmeas analisadas. Populações de A.asunsionensis e uma população de Astyanax aff. Bimaculatus também mostraram número diplóide de 50 cromossomos, mas diferindo em suas fórmulas cariotípicas. Portanto, A. asuncionensis foi também caracterizado por uma diversidade cariotípica intraespecífica. As análises de bandeamento C foi capaz de demonstrar um padrão distinto de heterocromatina, diferindo A. asuncionensis de A.aff. paranae e A. aff. bimaculatus. O cromossomo supranumerário de Astyanax aff. paranae mostrou-se completamente heterocromático. Apenas Astyanax aff. bimaculatus mostrou múltiplos sítios de regiões organizadoras de nucléolo(NORs). As outras espécies foram caraterizadas por apresentar um sistema simples de NOR. Estes dados contribuem para o conhecimento da existência de biodiversidade em nossa fauna de peixes, aqui em destaque pela diversidade cromossômica inter e intraespecífica no gênero Astyanax.(AU)


Subject(s)
Animals , Characidae/genetics , Karyotyping/veterinary , Biodiversity , Cytogenetic Analysis/veterinary
2.
Braz. j. biol ; Braz. j. biol;76(2): 360-366, Apr.-June 2016. graf
Article in English | LILACS | ID: lil-781384

ABSTRACT

Abstract The group Incertae sedis within the Characidae family currently includes 88 genera, previously included in the subfamily Tetragonopterinae. Among them is the genus Astyanax comprising a group of species with similar morphology and widely distributed in the Neotropics. Thus, the present study aimed to analyze the karyotype diversity in Astyanax species from different watersheds by conventional Giemsa staining, C-banding and fluorescence in situ hybridization (FISH rDNA 18S) probe.specimens of Astyanax aff. paranae belonging to the “scabripinnis complex”, Astyanax asunsionensis and Astyanax aff. bimaculatus were analyzed”. Two sympatric karyomorphs were observed in Astyanax.aff paranae, one of them having2n=48andthe other one with 2n=50 chromosomes. Other population of this same species also presented 2n=50 chromosomes, but differing in the karyotype formula and with macro supernumerary chromosome found in 100% of the cells in about 80%of females analyzed. Two population of A. asuncionensis and one population of Astyanax. aff. bimaculatus, also showed a diploid number of 50 chromosomes, but also differing in their karyotype formulas. Therefore, A. asuncionensis was also characterized by intraspecific chromosome diversity. The C-banding analysis was able to demonstrate a distinctable to demonstrate a distinct pattern of heterochromatin differing A. asuncionensis from Astyanax aff. paranae and Astyanax aff. bimaculatus. The supernumerary chromosome of Astyanax aff. paranae proved completely heterochromatic. Only Astyanax.aff. bimaculatus multiple showed multiple sites of nucleolar organizing regions. The other species were characterized by having a simple system of NOR. These data contributes to the know ledge of the existing biodiversity in our fish fauna, here highlighted by the inter- and intraspecific chromosomal diversity in the genus Astyanax.


Resumo O grupo Incertae sedis, dentro da família Characidae inclui atualmente 88 gêneros, anteriormente incluídos na subfamília Tetragonopterinae. Dentre eles encontra-se o gênero Astyanax que compreende um grupo de espécies com morfologia similar e com ampla distribuição na região Neotropical. Assim, o presente estudo teve como objetivo analisar a diversidade cariotípica em espécies de Astyanax de diferentes bacias hidrográficas, através da coloração convencional com Giemsa, bandeamento C e hibridização fluorescente in situ (FISH com rDNA 18S). Exemplares de Astyanax aff. paranae, pertencentes ao “complexo scabripinnis”; Astyanax asunsionensise Astyanax aff. bimaculatus foram analisados. Dois cariomorfos foram observados em A. aff. paranae, um deles com 2n=48 cromossomos e outro com 2n=50 cromossomos. Outra população apresentou 2n=50 cromossomos, ambas diferindo na fórmula cariotípica e um cromossomo supranumerário encontrado em 100% das células, em aproximadamente 80% das fêmeas analisadas. Populações de A.asunsionensis e uma população de Astyanax aff. Bimaculatus também mostraram número diplóide de 50 cromossomos, mas diferindo em suas fórmulas cariotípicas. Portanto, A. asuncionensis foi também caracterizado por uma diversidade cariotípica intraespecífica. As análises de bandeamento C foi capaz de demonstrar um padrão distinto de heterocromatina, diferindo A. asuncionensis de A.aff. paranae e A. aff. bimaculatus. O cromossomo supranumerário de Astyanax aff. paranae mostrou-se completamente heterocromático. Apenas Astyanax aff. bimaculatus mostrou múltiplos sítios de regiões organizadoras de nucléolo(NORs). As outras espécies foram caraterizadas por apresentar um sistema simples de NOR. Estes dados contribuem para o conhecimento da existência de biodiversidade em nossa fauna de peixes, aqui em destaque pela diversidade cromossômica inter e intraespecífica no gênero Astyanax.


Subject(s)
Animals , Female , Characidae/classification , Characidae/genetics , Genetic Variation , Brazil , In Situ Hybridization, Fluorescence , Biodiversity , Karyotype , Karyotyping/methods
3.
Braz J Biol ; 76(2): 360-6, 2016 Jun.
Article in English | MEDLINE | ID: mdl-26934153

ABSTRACT

The group Incertae sedis within the Characidae family currently includes 88 genera, previously included in the subfamily Tetragonopterinae. Among them is the genus Astyanax comprising a group of species with similar morphology and widely distributed in the Neotropics. Thus, the present study aimed to analyze the karyotype diversity in Astyanax species from different watersheds by conventional Giemsa staining, C-banding and fluorescence in situ hybridization (FISH rDNA 18S) probe.specimens of Astyanax aff. paranae belonging to the "scabripinnis complex", Astyanax asunsionensis and Astyanax aff. bimaculatus were analyzed". Two sympatric karyomorphs were observed in Astyanax.aff paranae, one of them having2n=48andthe other one with 2n=50 chromosomes. Other population of this same species also presented 2n=50 chromosomes, but differing in the karyotype formula and with macro supernumerary chromosome found in 100% of the cells in about 80%of females analyzed. Two population of A. asuncionensis and one population of Astyanax. aff. bimaculatus, also showed a diploid number of 50 chromosomes, but also differing in their karyotype formulas. Therefore, A. asuncionensis was also characterized by intraspecific chromosome diversity. The C-banding analysis was able to demonstrate a distinctable to demonstrate a distinct pattern of heterochromatin differing A. asuncionensis from Astyanax aff. paranae and Astyanax aff. bimaculatus. The supernumerary chromosome of Astyanax aff. paranae proved completely heterochromatic. Only Astyanax.aff. bimaculatus multiple showed multiple sites of nucleolar organizing regions. The other species were characterized by having a simple system of NOR. These data contributes to the know ledge of the existing biodiversity in our fish fauna, here highlighted by the inter- and intraspecific chromosomal diversity in the genus Astyanax.


Subject(s)
Characidae , Animals , Biodiversity , Brazil , Characidae/classification , Characidae/genetics , Female , Genetic Variation , In Situ Hybridization, Fluorescence , Karyotype , Karyotyping/methods
4.
Braz. J. Biol. ; 76(2)2016.
Article in English | VETINDEX | ID: vti-744840

ABSTRACT

Abstract The group Incertae sedis within the Characidae family currently includes 88 genera, previously included in the subfamily Tetragonopterinae. Among them is the genus Astyanax comprising a group of species with similar morphology and widely distributed in the Neotropics. Thus, the present study aimed to analyze the karyotype diversity in Astyanax species from different watersheds by conventional Giemsa staining, C-banding and fluorescence in situ hybridization (FISH rDNA 18S) probe.specimens of Astyanax aff. paranae belonging to the scabripinnis complex, Astyanax asunsionensis and Astyanax aff. bimaculatus were analyzed. Two sympatric karyomorphs were observed in Astyanax.aff paranae, one of them having2n=48andthe other one with 2n=50 chromosomes. Other population of this same species also presented 2n=50 chromosomes, but differing in the karyotype formula and with macro supernumerary chromosome found in 100% of the cells in about 80%of females analyzed. Two population of A. asuncionensis and one population of Astyanax. aff. bimaculatus, also showed a diploid number of 50 chromosomes, but also differing in their karyotype formulas. Therefore, A. asuncionensis was also characterized by intraspecific chromosome diversity. The C-banding analysis was able to demonstrate a distinctable to demonstrate a distinct pattern of heterochromatin differing A. asuncionensis from Astyanax aff. paranae and Astyanax aff. bimaculatus. The supernumerary chromosome of Astyanax aff. paranae proved completely heterochromatic. Only Astyanax.aff. bimaculatus multiple showed multiple sites of nucleolar organizing regions. The other species were characterized by having a simple system of NOR. These data contributes to the know ledge of the existing biodiversity in our fish fauna, here highlighted by the inter- and intraspecific chromosomal diversity in the genus Astyanax.


Resumo O grupo Incertae sedis, dentro da família Characidae inclui atualmente 88 gêneros, anteriormente incluídos na subfamília Tetragonopterinae. Dentre eles encontra-se o gênero Astyanax que compreende um grupo de espécies com morfologia similar e com ampla distribuição na região Neotropical. Assim, o presente estudo teve como objetivo analisar a diversidade cariotípica em espécies de Astyanax de diferentes bacias hidrográficas, através da coloração convencional com Giemsa, bandeamento C e hibridização fluorescente in situ (FISH com rDNA 18S). Exemplares de Astyanax aff. paranae, pertencentes ao complexo scabripinnis; Astyanax asunsionensise Astyanax aff. bimaculatus foram analisados. Dois cariomorfos foram observados em A. aff. paranae, um deles com 2n=48 cromossomos e outro com 2n=50 cromossomos. Outra população apresentou 2n=50 cromossomos, ambas diferindo na fórmula cariotípica e um cromossomo supranumerário encontrado em 100% das células, em aproximadamente 80% das fêmeas analisadas. Populações de A.asunsionensis e uma população de Astyanax aff. Bimaculatus também mostraram número diplóide de 50 cromossomos, mas diferindo em suas fórmulas cariotípicas. Portanto, A. asuncionensis foi também caracterizado por uma diversidade cariotípica intraespecífica. As análises de bandeamento C foi capaz de demonstrar um padrão distinto de heterocromatina, diferindo A. asuncionensis de A.aff. paranae e A. aff. bimaculatus. O cromossomo supranumerário de Astyanax aff. paranae mostrou-se completamente heterocromático. Apenas Astyanax aff. bimaculatus mostrou múltiplos sítios de regiões organizadoras de nucléolo(NORs). As outras espécies foram caraterizadas por apresentar um sistema simples de NOR. Estes dados contribuem para o conhecimento da existência de biodiversidade em nossa fauna de peixes, aqui em destaque pela diversidade cromossômica inter e intraespecífica no gênero Astyanax.

5.
Genet Mol Res ; 6(3): 504-9, 2007 Aug 30.
Article in English | MEDLINE | ID: mdl-17985303

ABSTRACT

Four populations of Serrapinnus notomelas and one population of Serrapinnus sp.1, both belonging to the subfamily Cheirodontinae, were analyzed by Giemsa and silver nitrate impregnation techniques. We found 2n = 52 chromosomes for all populations, with interspecific differences in the karyotype formula; S. notomelas showed 16 m + 22 sm + 10 st + 4a, with fundamental number (FN) = 100 for males, and 16 m + 23 sm + 10 st + 3a, with FN = 101 for females. Serrapinnus sp.1 had 8m + 16 sm + 4 st + 24 a, with FN = 80 for males, and 8m + 15 sm + 4 st + 25 a, with FN = 79 for females. The difference in FN for the two sexes is due to a pair of heteromorphic chromosomes in the females of both species, which characterizes a ZZ/ZW-type mechanism of chromosome sexual determination. Interspecies differences were also found in nucleolus organizer regions (NORs). A simple NOR system was detected in three of four S. notomelas populations, while Serrapinnus sp.1 had two chromosome pairs with NOR. Although S. notomelas and Serrapinnus sp.1 have the same diploid number, differences in the karyotype structure indicate that these are different species. Apparently there was pericentric inversion during the karyotype evolution of these species.


Subject(s)
Cytogenetic Analysis/methods , Cytogenetics/methods , Fishes/genetics , Sex Chromosomes/ultrastructure , Animals , Chromosome Mapping , Chromosomes/ultrastructure , Female , Genetics, Population , Karyotyping , Male , Models, Genetic , Nucleolus Organizer Region
6.
Genet. mol. res. (Online) ; Genet. mol. res. (Online);6(3): 504-509, 2007. ilus
Article in English | LILACS | ID: lil-498921

ABSTRACT

Four populations of Serrapinnus notomelas and one population of Serrapinnus sp.1, both belonging to the subfamily Cheirodontinae, were analyzed by Giemsa and silver nitrate impregnation techniques. We found 2n = 52 chromosomes for all populations, with interspecific differences in the karyotype formula; S. notomelas showed 16m + 22sm + 10st + 4a, with fundamental number (FN) = 100 for males, and 16m + 23sm + 10st + 3a, with FN = 101 for females. Serrapinnus sp.1 had 8m + 16sm + 4st + 24a, with FN = 80 for males, and 8m + 15sm + 4st + 25a, with FN = 79 for females. The difference in FN for the two sexes is due to a pair of heteromorphic chromosomes in the females of both species, which characterizes a ZZ/ZW-type mechanism of chromosome sexual determination. Interspecies differences were also found in nucleolus organizer regions (NORs). A simple NOR system was detected in three of four S. notomelas populations, while Serrapinnus sp.1 had two chromosome pairs with NOR. Although S. notomelas and Serrapinnus sp.1 have the same diploid number, differences in the karyotype structure indicate that these are different species. Apparently there was pericentric inversion during the karyotype evolution of these species.


Subject(s)
Animals , Male , Female , Cytogenetic Analysis/methods , Cytogenetics/methods , Sex Chromosomes/ultrastructure , Fishes/genetics , Chromosome Mapping , Chromosomes/ultrastructure , Genetics, Population , Karyotyping , Models, Genetic , Nucleolus Organizer Region
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