Estrutura e evolução cariotípica de peixes ciclídeos sul americanos

Pós-graduação em Biologia Geral e Aplicada - IBB

Evolução cromossômica em Cassidinae sensu lato (Coleoptera, Polyphaga, Chrysomelidae)

Pós-graduação em Ciências Biológicas (Biologia Celular e Molecular) - IBRC

Evolução cromossômica no veado-mateiro – Mazama americana (Mammalia; Cervidae)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Citogenética de algumas espécies frutíferas nativas do nordeste do Brasil

O presente trabalho teve como objetivo caracterizar o cariótipo de seis espécies de frutíferas nativas do Brasil por meio da análise do número e morfologia cromossômica das mesmas. As pontas de raízes jovens foram pré-tratadas com 8-hidroxiquinolina 0,002M, esmagadas em ácido acético 45% e coradas convencionalmente com Giemsa. O material estudado apresentou cariótipo simétrico, com cromossomos pequenos, medindo de 0,6 a 2,5µm, predominantemente metacêntricos a submetacêntricos com uma a duas constrições secundárias visíveis em todas as espécies, exceto em Bromelia karatas, onde não foi possível identificar a morfologia cromossômica ou a presença de constrições secundárias. Na família Myrtaceae, observou-se um complemento cromossômico diplóide com 2n=98 em Psidium arboreum Vell. e 2n=44 em P. araça Raddi; na família Bromeliaceae, 2n=50 em Bromelia karatas L.; na família Malvaceae, 2n=16 para Guazuma ulmifolia Lam.; na família Sapindaceae, 2n=32 em Talisia esculenta Radlk., e, na família Caricaceae, 2n=18 em Jaracatia spinosa (Aubl.) A. DC. Todos os dados cromossômicos apresentados neste trabalho são inéditos, exceto para a espécie T. esculenta, que teve seu registro prévio confirmado. As espécies possuem potencial para utilização no melhoramento de plantas, e uma inversão em heterozigoze parece estar envolvida na evolução cariotípica de Guazuma ulmifolia.

Diversificação evolutiva de gobídeos no litoral brasileiro: padrões citogenéticos e ecomorfológicos

The fishes of the order Perciformes are characterized as an important model for understanding the genetic structure of marine populations, because besides they present examples of conservation chromosomal, also they present the karyotype diversification for some groups. Gobiidae family is the most specious in the marine environment. Among its representatives, many species are part of a cryptic fauna little noticed and studied, a wide distribution with behavioral and reproductive characteristics, that make them conducive to the action of biogeographical barriers. Morphologically this family presents reduced body structures through simplification and regressions. Despite their importance in evolutionary inferences, cytogenetics data are incipient facing their species diversity, especially with western Atlantic species. In order to estimate the evolutionary diversity in Gobiidae, it were developed cytogenetic analysis and the standards body, through geometric morphometrics in five species on the Brazilian coast, Coryphopterus glaucofraenum, Bathygobius mystacium, B. soporator, Ctenogobius smaragdus e C. Boleosoma. The data show significant karyotype and morphological diversity among the species. The pericentric inversions and mergers play an important role in chromosomal evolution of this family, causing karyotypic structural and numerical differences in all species. Karyotypic and morphological comparisons among geographic samples of B. soporator from the coast of Maranhão, Rio Grande do Norte and Bahia showed cytogenetics patterns commons, but different morphological patterns. A sample from the Atol das Rocas revealed conspicuous morphological and karyotypic differentiation of another continental populations, confirming the presence of a new island species. The approaches done reveal diversification consistent with characteristics of a group of low vagile and largely able to environmental selection due from peculiar ecological requirements

Levantamento cariotípico em espécies de peixes marinhos costeiros de fundo arenoso (Osteichthypes, Perciformes)

Cytogenetics analyses in fish are important because they compose a private group among the vertebrates, occupying a central position in the animal evolution. The Perciforms Order, dominant in the marine and freshwater environment, it constitutes a model potentially useful in the genetic evaluation of populations, as well as in the understanding of its evolutionary processes. In spite of this, cytogenetics studies in this great group is scarce, above all for the inhabitants of sandy bottom and pelagics habits. The present work proposed to contribute for the cytogenetic characterization of nine species of fish marine of sandy bottom of the coast of Rio Grande do Norte (Brazil), identifying the evolutionary patterns related to the karyotype in these species and the existence of filogenetics affinities between them and other Perciformes. The animals were collected in the beaches of the Redinha, Ponta Negra and Búzios (Coast of Rio Grande do Norte) and in Saint Peter and Saint Paul Archipelago. Later on they were submitted to the cytogenetics technical that consist of mitotic estimulation, obtaining of mitotics chromosomes, proceeded by techniques of conventional coloration (Giemsa) and chromosomic bands (Ag-RONs and C band). Diploid number and fundamental number equal to 48 were observed in most of the species: Menticirrhus americanus, Ophioscion punctatissimus, Pareques acuminatus (Sciaenidae); Chloroscombrus chrysurus (Carangidae); Echeneis sp. 2 (Echeneidae); Archosargus probatocephalus (Sparidae) and Orthopristis ruber (Haemulidae). Trachinotus goodei (NF=52) (Carangidae) and Echeneis sp. 1 (Echeneidae) (NF=54) presented variation in NF, staying constant a diploid number equal to 48. RONs was situated in pericentromeric position in whole the scianids, and in the species Echeneis sp. 2 (22° pair), O. ruber and A. probatocephalus (1° pair), coinciding with great heterocromatics blocks in M. americanus (1° pair), P. acuminatus (2° pairl) and O. ruber (1° pair). RONs was also located in the telomeric area of the short arm of the 5° and 11° acrocentrics pairs in T. goodei, 4° and 19° pairs of C. chrysurus, 1° pair (sm) of Echeneis sp. 1. The C band detected centromeric blocks in most of the chromosomes of the species of Sciaenidae, Carangidae and Echeneidae, with great blocks in A. probatocephalus (4° pair). Heterocromatic blocks in telomeric areas in submetacentrics of Echeneis sp. 1, and pericentromerics in M. americanus (1° and 8° pairs), O. punctatissimus (1° pair) and P. acuminatus (2° pair) were also observed. It is noticed a marked conservatism cromossomic in the species of the family Scianidae and Haemulidae in what says respect to the number of acrocentrics chromosomes and the location of RONs. Even so it is outstanding the presence of heterocromatinization events during the karyotypic evolution of this family. Already in the families Sparidae and Carangidae, the obtained results reaffirm examples of small variations structural resultants of inversion and translocation Robertsonian, as important mechanisms of diversification karyotipical, as well as a pattern numerical evolutionary conserved, also observed in representatives of Echeneidae of Atlantic in relation to Pacific. The presence of RONs multiple, observed in the species T. goodei and C. chrysurus seems to represent a character derived in the family Carangidae. The results for the species O. ruber and A. probatocephalus suggest the presence of possible geographical or climatic barriers among populations of NE of Brazil in relationship the one of the SE

Identificação dos cromossomos de Mazama gouazoubira (Artiodactyla; Cervidae) envolvidos em rearranjos induzidos pela doxorrubicina

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Dinâmica evolutiva de DNAs repetitivos com ênfase em espécies da tribo Phanaeini

Pós-graduação em Ciências Biológicas (Genética) - IBB

Estudo citogenético e evolutivo em espécies brasileiras de Eleocharis (Cyperaceae)

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Isolamento de sequências repetitivas do genoma de espécies do gênero Ancistrus (Siluriformes: Loricariidae)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Mecanismos de evolução cromossômica e diferenciação cariotípica em espécies das subfamílias Hylinae (tribos Cophomantini e Lophiohylini) e Phyllomedusinae (Hylidae, Anura, Amphibia)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Evolução cromossômica em aranhas caranguejeiras (Mygalomorphae) e Haploginas Basais (Araneomorphae)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Evolução cromossômica na Ordem Xenarthra

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Alterações cromossômicas estruturais e evolução caritotípica em Astyanax fasciatus (Teleostei, Characiformes, Characidae)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Padrões temporais e grau de diversificação cariotípica em espécies atlânticas da família Acanthuridae (Perciformes)

The Acanthuridae family is a representative group from the marine fish that plays a key role in ecological dynamics of coral reefs. Three species are common along coastal reefs of Western Atlantic: Acanthurus coeruleus, Acanthurus bahianus and Acanthurus chirurgus. In the present study, cytogenetic data are presented for these three species Acanthurus based on classical cytogenetic methods and mapping of repetitive sequences such as ribosomal 18S and 5S rDNA and telomeric repeats to improve their karyotype evolutionary analyses. The cytogenetic pattern of these species indicated sequential steps of chromosomal rearrangements dating back 19 to 5 millions of years ago (M.a.) that accounted for their interspecific differences. A. coeruleus (2n=48; 2sm+4st+42a), A. bahianus (2n=36; 12m+2sm+4st+18a) and A. chirurgus (2n=34; 12m+2sm+4st+16a) share an older set of three chromosomal pairs that were originated through pericentric inversions. A set of six large metacentric pairs formed by Robertsonian (Rb) translocations found in A. bahianus and A. chirurgus and a putative in tandem fusion found in A. chirurgus are more recent events. The lack of interstitial telomeric sequences (ITS) in spite of several centric fusions in A. bahianus and A. chirurgus might be related to the long period of time after their occurrence (estimated in 5 M.a.). Furthermore, the homeologies among the chromosome pairs bearing ribosomal genes, in addition to other structural features, highlight large conserved chromosomal regions in the three species. Our findings indicate that macrostructural changes occurred during the cladogenesis of these species were not followed by conspicuous microstructural rearrangements in the karyotypes.