Letteratura scientifica selezionata sul tema "Marsupials Molecular genetics"
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Articoli di riviste sul tema "Marsupials Molecular genetics"
McKenzie, LM, e DW Cooper. "Low MHC class II variability in a marsupial". Reproduction, Fertility and Development 6, n. 6 (1994): 721. http://dx.doi.org/10.1071/rd9940721.
Testo completoRenfree, Marilyn B. "Society for Reproductive Biology Founders' Lecture 2006 Life in the pouch: womb with a view". Reproduction, Fertility and Development 18, n. 7 (2006): 721. http://dx.doi.org/10.1071/rd06072.
Testo completoCowan, PE. "Changes in milk composition during lactation in the common brushtail possum, Trichosurus vulpecula (Marsupialia: Phalangeridae)". Reproduction, Fertility and Development 1, n. 4 (1989): 325. http://dx.doi.org/10.1071/rd9890325.
Testo completoMoore, HD. "Gamete biology of the new world marsupial, the grey short-tailed opossum, Monodelphis domestica". Reproduction, Fertility and Development 8, n. 4 (1996): 605. http://dx.doi.org/10.1071/rd9960605.
Testo completoPrice, Gilbert J., Kyle J. Ferguson, Gregory E. Webb, Yue-xing Feng, Pennilyn Higgins, Ai Duc Nguyen, Jian-xin Zhao, Renaud Joannes-Boyau e Julien Louys. "Seasonal migration of marsupial megafauna in Pleistocene Sahul (Australia–New Guinea)". Proceedings of the Royal Society B: Biological Sciences 284, n. 1863 (27 settembre 2017): 20170785. http://dx.doi.org/10.1098/rspb.2017.0785.
Testo completoRenfree, M. B., S. R. Frankenberg e C. Freyer. "054. TROPHOBLAST, PLACENTA AND EARLY EMBRYO: HOW THE MARSUPIAL DEVELOPS". Reproduction, Fertility and Development 22, n. 9 (2010): 15. http://dx.doi.org/10.1071/srb10abs054.
Testo completoRobinson, ES, MB Renfree, RV Short e JL VandeBerg. "Mammary glands in male marsupials. 2. Development of teat primordia in Didelphis virginiana and Monodelphis domestica". Reproduction, Fertility and Development 3, n. 3 (1991): 295. http://dx.doi.org/10.1071/rd9910295.
Testo completoDeakin, Janine E., e Sally Potter. "Marsupial chromosomics: bridging the gap between genomes and chromosomes". Reproduction, Fertility and Development 31, n. 7 (2019): 1189. http://dx.doi.org/10.1071/rd18201.
Testo completoRodger, JC. "Prefertilization gamete maturation events in marsupials". Reproduction, Fertility and Development 6, n. 4 (1994): 473. http://dx.doi.org/10.1071/rd9940473.
Testo completoFrankenberg, S., A. J. Pask e M. B. Renfree. "259. Pluripotency genes in a marsupial, the tammar wallaby". Reproduction, Fertility and Development 20, n. 9 (2008): 59. http://dx.doi.org/10.1071/srb08abs259.
Testo completoTesi sul tema "Marsupials Molecular genetics"
Firestone, Karen Beth School of Biological Science UNSW. "The Application of Molecular Genetics to the Conservation Management of Quolls, Dasyurus Species (Dasyuridae:Marsupialia)". Awarded by:University of New South Wales. School of Biological Science, 1999. http://handle.unsw.edu.au/1959.4/17491.
Testo completoFazenda, Inês Isabel Paulo. "Molecular and morphological characterization of the genus globocephaloides from macropodid marsupials in Australia". Bachelor's thesis, Universidade Técnica de Lisboa. Faculdade de Medicina Veterinária, 2009. http://hdl.handle.net/10400.5/1302.
Testo completoThe genus Globocephaloides (Nematoda: Trichostrongyloidea) is a pathogenic group of parasitic nematodes present in the duodenum of kangaroos and wallabies (Marsupialia: Macropodidae) in Australia. Globocephaloides species (G. trifidospicularis, G. macropodis and G. affinis) have been poorly studied and thus, there are significant controversies regarding their systematics and population structures. In the present study, single-strand conformation polymorphism (SSCP) and targeted sequencing of the internal transcribed spacers (ITS) of nuclear ribosomal DNA, were used to assess the genetic variation within and among Globocephaloides populations and individuals, from different host species and geographical origins. No or minor (0.2%) variation was detected among individuals of G. trifidospicularis and G. affinis. However, within G. macropodis populations there was a consistent heterogeneity in the ITS sequences (5.2 - 7.1%) between worms derived from two different host species (Macropus agilis and M. dorsalis). Under light microscopy, these two G. macropodis genotypes differed by the length, arrangement and tip of the spicules, and by pattern of the bursal rays. Thus, they were considered to represent sibling species. The molecular and morphological evidence culminated with the erection of a new species, namely G. wallabiae, and provided further insights into the host affiliation and geographical ranges of Globocephaloides spp.: G. wallabiae occurs mainly in M. dorsalis (north/east), G. macropodis in M. agilis and Petrogale persephone (north), G. affinis in M. dorsalis (north-east), and G. trifidospicularis in various Macropus species (south). Moreover, in the present study, the phylogenetic analyses between the genus Globocephaloides and other trichostrongyloid genera, using divergent domains of the 28S rRNA genes, gave evidence for the exclusion of the genus Globocephaloides from the Herpetostrongylidae, with the suggestion of a new family, namely „Globocephaloididae‟, within the Heligmosomoidea.
RESUMO - CARACTERIZAÇÃO MOLECULAR E MORFOLÓGICA DO GÉNERO GLOBOCEPHALOIDES EM MARSUPIAIS MACROPODÍDEOS NA AUSTRÁLIA - O género Globocephaloides (Nematoda: Trichostrongyloidea) é um importante grupo de nemátodes patogénicos presente no duodeno de cangurus e wallabies (Marsupialia: Macropodidae) na Austrália. O estudo das espécies de Globocephaloides (G. trifidospicularis, G. macropodis e G. affinis) tem sido limitado, e por isso, existem numerosas controvérsias em relação à sua sistemática e às suas estruturas populacionais. No presente estudo, as técnicas de análise de ácidos nucleicos, „single-strand conformation polymorphism‟ (SSCP) e sequenciação-alvo da região ITS („internal transcribed spacers‟) do DNA ribossomal foram usadas com o objectivo de analisar a variação genética entre indivíduos e populações de Globocephaloides provenientes de diferentes hospedeiros e áreas geográficas. Em ambas as espécies G. trifidospicularis e G. affinis pouca ou nenhuma variação foi encontrada (0.2%). Contudo, nas populações de G. macropodis foi detectada uma consistente heterogeneidade nas sequências ITS (5.2 - 7.1%) entre espécimes provenientes de dois hospedeiros distintos (Macropus agilis e M. dorsalis). Recorrendo à microscopia óptica verificou-se que os dois genótipos de G. macropodis diferiam no comprimento, conformação e ponta das espículas, assim como, no padrão dos raios da bolsa copuladora. Como tal, foi considerado que os dois genótipos representavam duas espécies congéneres. Os resultados da biologia molecular e do estudo morfológico determinaram o reconhecimento de uma nova espécie denominada G. wallabiae e, além disso, forneceram dados sobre a especificidade de hospedeiros e distribuição geográfica do género Globocephaloides. G. wallabiae ocorre principalmente no hospedeiro M. dorsalis (norte/este), G. macropodis no M. agilis e Petrogale persephone (norte), G. affinis no M. dorsalis (nordeste) e G. trifidospicularis em várias espécies do género Macropus (sul). Adicionalmente, a análise das relações filogenéticas entre o género Globocephaloides e outros tricostrongilídeos, empregando os domínios do gene 28S rRNA, deu provas para a exclusão do género Globocephaloides da família Herpetostrongylidae, com a sugestão de uma nova família, denominada „Globocephalidae‟, inserida na superfamília Heligmosomoidea.
Financial support provided to the supervisors for the present study was from bodies including the Australian Research Council (ARC) [to Robin B. Gasser] and Australian Biological Resources Study (ABRS) [to Ian Beveridge]
Rosa, Pamela Laiz Paré da. "Evolução dos genes da rede OXT - AVP - PRL: Aspectos moleculares, fisiológicos e comportamentais em mamíferos". reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2018. http://hdl.handle.net/10183/180703.
Testo completoThe search for the genetic repertoire behind behavioral and reproductive features of Primate species has challenged our research group. The principal premise in this kind of study is based on the hypothesis that a phenotypic trait (either physiological, behavioral, etc.) shared by an entire taxonomic group should be determined by a genetic repertoire common to these taxa. Considering the complexity of many of these features, we have expanded our studies for several genes of the OXT - AVP - PRL network, using in silico, in vitro, and in vivo approaches. In the present Thesis, the set of genes for the study was selected by a methodology based on biological ontology, with features like maternal behavior, breastfeeding, and reproductive aspects, such as mating and courtship behavior. This selection resulted in 12 candidate genes for the study: AVP, AVPR1A, AVPR1B, ESR1, FOS, HCRT, OXT, OXTR, PRL, PRLH, PRLR, and TRH. We explored here this gene set of the OXT – AVP – PRL network through data mining, searching for their orthologues in many Primate species and other mammals, as well as through new sequence data from the PRLR and PRLH coding region in a set of New World Monkey (NWM) species. Additionally, sequences from the PRLR coding regions were also obtained in marsupial species. To elucidate evolutionary patterns of the genes of interest, we used the NsSites and Branch Sites tests from PAML package, as well as several classic population tests, for different sample sets. In addition, we predicted the secondary structure of target proteins, using a specific methodology of the PSIPRED program, as well as PONDER-FIT for prediction of intrinsically disordered amino acids. Our in silico results suggest that the genes of the vasopressin receptor family (AVPR1A, AVPR1B, and AVPR2) present a pattern compatible with positive selection in placental mammals. Some of the sites with selection signals have linear motifs (SLiMS) predicted in the AVPR2 receptor, which may have facilitated the emergence of adaptive novelties, as was suggested for the kangaroo rat Dipodomys ordii, which inhabits arid regions. Analyses of the original PRLR coding region data on 17 NWM species revealed several sites present in the long form of the receptor with a high probability of being under positive selection, some of them (positions 507, 532 and 572) being associated with twin births, a characteristic of Callitrichidae species. Additionally, we verified in the Siimiformes branch a linear interaction motif that recognizes SH3 domains (Src Homology 3). The SH3 domains and their ligands were described for hundreds of proteins; they provide a particularly convenient and adaptable medium of specific protein-protein interaction to the cell, which can be of functional importance. This work as a whole contributed to the knowledge of the genetic repertoire connected to the complex network of neuroendocrine mechanisms associated to the emergence of physiological and behavioral adaptive traits in different mammalian clades.
PAVAN, Silvia Eliza D´Oliveira. "Diversidade de espécies no complexo Monodelphis brevicaudata (Didelphimorphia:Didelphidae), inferida por dados moleculares e morfológicos". Universidade Federal do Pará, 2009. http://repositorio.ufpa.br/jspui/handle/2011/3535.
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O complexo de espécies M. brevicaudata possui distribuição reconhecida para o Norte da América do sul e compreende três espécies descritas ‐ M. brevicaudata, M. glirina, e M. palliolata ‐ e duas não descritas, reconhecidas em estudos prévios. A delimitação de espécies baseada somente em caracteres morfológicos é complicada, de forma que diversos táxons nominais já foram associados ao grupo e diversos arranjos taxonômicos foram propostos. Os poucos estudos baseados em dados moleculares que incluíram espécimes do complexo brevicaudata revelaram altas taxas de divergência genética. Este trabalho buscou elucidar a sistemática do complexo de espécies M. brevicaudata através do estudo dos padrões de variação morfológica e genética. Para tal, desenvolvemos análises filogenéticas baseadas em dois genes mitocondriais: citocromo b e 16 S rDNA. Adicionalmente, estudamos a morfologia externa e craniana dos espécimes, investigando a existência de congruência entre a variação genética e morfológica. As análises morfológicas foram, em geral, congruentes com as moleculares, as quais indicaram os mesmos clados em todas as análises filogenéticas. Foram formalmente reconhecidas nove espécies para o complexo. Monodelphis brevicaudata, M. palliolata e M. glirina são consideradas espécies válidas; M. touan é revalidado da sinonímia de M. brevicaudata e duas espécies novas são descritas e nomeadas; a espécie M. domestica provou ser intimamente relacionada a espécimes do grupo brevicaudata, sendo aqui considerada como integrante do referido grupo; duas espécies reconhecidas como distintas permanecem sem uma descrição formal; M. maraxina é sinonimizada com M. glirina. Foi observado dimorfismo sexual para as espécies estudadas, sendo que para as duas espécies estatisticamente testadas (teste T de student), M. glirina e M. sp. nov. “Trombetas”, os machos apresentaram crânios significativamente maiores que as fêmeas. Rios de grande porte parecem ter participado na diferenciação genética e estruturação filogeográfica das espécies. O padrão filogeográfico encontrado sugere ao menos dois centros de diversificação para o grupo, um no escudo das Guianas, envolvendo as espécies ao norte do rio Amazonas, e outro no escudo brasileiro, envolvendo M. glirina e M. domestica.
Short‐tailed opossums of the Monodelphis revicaudata complex inhabit northern South America, and comprise three described species ‐ M. brevicaudata, M. glirina, and M. palliolata ‐ and two undescribed forms already recognized in prior studies. Species delimitation based solely on morphological features is difficult, and because of that many nominal taxa have been associated with this species complex, and several taxonomic arrangements have been proposed. Previous molecular phylogenetic studies using specimens of this species complex revealed substantial genetic divergence rates. The present study aims to elucidate the systematics of the M. brevicaudata species complex through the analyses of molecular and morphological characters. We performed phylogenetic analyses on two mitochondrial genes (cyt b and 16S), studied the external and cranial morphology, and investigated whether observed genetic variation is congruent with morphological differences. Our morphological results were generally concordant with the molecular results. We recognize nine species in the species complex. M. brevicaudata, M. palliolata, and M. glirina are considered valid species; M. touan is re‐established from the synonymy of M. brevicaudata and two new species are described and named; the species M. domestica proved to be closely related to specimens of the M. brevicaudata complex, and thus are considered as part of that group; we also recognized two new species without formallly naming them; M. maraxina is considered a synonym of M. glirina. Sexual dimorphism is observed in the species, and in two species males showed skulls significantly larger than females. Major rivers seem to have played an important role in generating genetic differentiation and phylogeographical structure of the species. The phylogeographical pattern suggests at least two diversification centers for the group, one in the Guiana shield, comprising species ranging north of the Amazon river, and another in the Brazilian shield, comprising M. glirina and M. domestica.
Firestone, Karen B. "The application of molecular genetics to the conservation management of quolls, Dasyurus species (Dasyuridae : Marsupialia) /". 1999. http://www.library.unsw.edu.au/~thesis/adt-NUN/public/adt-NUN20010105.095232/index.html.
Testo completoSankovic, Natasha. "Molecular characterisation of a marsupial Y chromosome". Phd thesis, 2005. http://hdl.handle.net/1885/150771.
Testo completoMalekian, Mansoureh. "Molecular systematics and conservation genetics of gliding petaurids (Marsupialia: petauridae)". 2007. http://hdl.handle.net/2440/41539.
Testo completohttp://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1295224
Thesis (Ph.D.) -- School of Earth and Enviromental Sciences, 2007
Malekian, Mansoureh. "Molecular systematics and conservation genetics of gliding petaurids (Marsupialia: petauridae)". Thesis, 2007. http://hdl.handle.net/2440/41539.
Testo completoThesis (Ph.D.) -- School of Earth and Enviromental Sciences, 2007
Libri sul tema "Marsupials Molecular genetics"
Coulson, Graeme, e Mark Eldridge, a cura di. Macropods. CSIRO Publishing, 2010. http://dx.doi.org/10.1071/9780643098183.
Testo completoCapitoli di libri sul tema "Marsupials Molecular genetics"
Pask, Andrew J., e Marilyn B. Renfree. "Molecular Regulation of Marsupial Reproduction and Development". In Marsupial Genetics and Genomics, 285–316. Dordrecht: Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9023-2_14.
Testo completoHampikian, Gregory K., Desmond W. Cooper e Jennifer A. Marshall Graves. "Sex Determination in Marsupials and Monotremes". In Molecular Genetics of Sex Determination, 143–70. Elsevier, 1994. http://dx.doi.org/10.1016/b978-0-12-728960-1.50012-4.
Testo completo