logo RIMA
logo UFRRJ

  1. Repositório de Múltiplos Acervos da UFRRJ
  2. Teses e Dissertações
  3. Programa de Pós-Graduação em Biologia Animal
  4. Doutorado em Biologia Animal
Please use this identifier to cite or link to this item: https://rima.ufrrj.br/jspui/handle/20.500.14407/9202
Full metadata record
DC FieldValueLanguage
dc.contributor.authorCardoso, Nathalia das Neves
dc.date.accessioned2023-12-21T18:36:06Z-
dc.date.available2023-12-21T18:36:06Z-
dc.date.issued2017-07-28
dc.identifier.citationCARDOSO, Nathalia das Neves. Aspectos histológicos, histoquímicos e imuno-histoquímicos do intestino e pâncreas de morcegos da família Phyllostomidae (Mammalia, Chiroptera). 2017. 60 f. Tese (Doutorado em Biologia Animal) - Instituto de Ciências Biológicas e da Saúde, Universidade Federal Rural do Rio de Janeiro, Seropédica - RJ, 2017.por
dc.identifier.urihttps://rima.ufrrj.br/jspui/handle/20.500.14407/9202-
dc.description.abstractEstudos histológicos, histoquímicos e imuno-histoquímicos vêm buscando de forma comparativa obter dados sobre o tubo gastrointestinal (TGI) de morcegos, devido ao fato destes animais possuírem uma diversificada dieta. Assim, o presente estudo visou descrever as características histológicas e histoquímicas do intestino e pâncreas de quatro espécies de morcegos da família Phyllostomidae (Dryadonycteris. capixaba, Pygoderma. bilabiatum, Chiroderma. villosum e Phyllostomus. discolor), bem como analisar a presença de células endócrinas nesses órgãos das espécies estudadas, buscando relacionar interespecificamente as características encontradas. Os animais analisados foram cedidos da coleção zoológica do Laboratório de Mastozoologia do Departamento de Biologia Animal (DBA) da Universidade Federal Rural do Rio de Janeiro (UFRRJ). Os órgãos foram fixados (formalina 10%) e acondicionados em álcool a 70%. Posteriormente foi encaminhado ao Laboratório de Histologia e Embriologia da UFRRJ, no qual foram submetidos aos processamentos histológicos de rotina e aos testes imuno-histoquímicos. Histologicamente o intestino e o pâncreas das espécies estudadas foram similares. Quanto aos testes imuno-histoquímico, dois tipos de células imunorreativas (IR) foram identificadas na mucosa intestinal das espécies estudadas, células produtoras de 5HT e CCK. Já no pâncreas foram observadas células imunorreativas (IR) à insulina, à glucagon à somatostatina e colecistocinina. Através deste estudo, notou-se que houve diferença na distribuição e na frequência relativa das células endócrinas no intestino delgado dos animais estudados. Enquanto no pâncreas foi observado similaridade entre as espécies quando comparado à histologia e a distribuição das células endócrinas estudadas.por
dc.formatapplication/pdf*
dc.languageporpor
dc.publisherUniversidade Federal Rural do Rio de Janeiropor
dc.rightsAcesso Abertopor
dc.subjecthistologiapor
dc.subjectintestinopor
dc.subjectpâncreaspor
dc.subjectmorcegospor
dc.subjectHistologyeng
dc.subjectintestineeng
dc.subjectpancreaseng
dc.subjectbateng
dc.titleAspectos histológicos, histoquímicos e imuno-histoquímicos do intestino e pâncreas de morcegos da família Phyllostomidae (Mammalia, Chiroptera)por
dc.title.alternativeHistological, histochemical and immunohistochemical aspects of the intestine and pancreas of bats of the family Phyllostomidae (Mammalia, Chiroptera).eng
dc.typeTesepor
dc.description.abstractOtherHistological, histochemical and immunohistochemical studies have sought to obtain data on the gastrointestinal tube (GIT) of bats, due to the fact that these animals have a diversified diet. The present study aimed to describe the histological and histochemical characteristics of the intestine and pancreas of four species of bat the family Phyllostomidae (Dryadonycteris, Capixaba, Pygoderma, bilabiatum, Chiroderma, Villosum and Phyllostomus discolor), as well as to analyze the presence of endocrine cells in these organs of the species studied, seeking to relate interspecifically the characteristics found. The animals were analyzed transferred from the zoological collection of the Microbiology Laboratory of the Department of Animal Biology (DBA) of the Universidade Federal Rural do Rio de Janeiro (UFRRJ).The organs were fixed (10% formalin) and conditioned in 70% alcohol. Subsequently, it was forwarded to the Laboratory of Histology and Embryology of UFRRJ, in which they were submitted to routine histological processing and immunohistochemical tests. Histologically the intestine and the pancreas of the species studied were similar. As for the immunohistochemical tests, two types of immunoreactive cells (IR) were identified in the intestinal mucosa of the studied species, 5HT and CCK producing cells. In the pancreas, immunoreactive cells (IR) were seen on insulin, glucagon on somatostatin and cholecystokinin. Through this study, there were differences in the distribution and relative frequency of endocrine cells in the small intestine of the animals studied. While in the pancreas species similarity was observed when compared to the histology and distribution of endocrine cells studied.eng
dc.contributor.advisor1Sales, Armando
dc.contributor.advisor1ID164.050.567-91por
dc.contributor.advisor1Latteshttp://lattes.cnpq.br/7306314893432986por
dc.contributor.advisor-co1Nascimento, Aparecida Alves do
dc.contributor.referee1Peracchi, Adriano Lúcio
dc.contributor.referee2Santos, Marcos Antonio José dos
dc.contributor.referee3Santos, Clarice Machado dos
dc.contributor.referee4Dias, Daniela
dc.contributor.referee5Pinheiro, Nadja Lima
dc.creator.ID058.636.187-10por
dc.creator.Latteshttp://lattes.cnpq.br/9230129323742144por
dc.publisher.countryBrasilpor
dc.publisher.departmentInstituto de Ciências Biológicas e da Saúdepor
dc.publisher.initialsUFRRJpor
dc.publisher.programPrograma de Pós-Graduação em Biologia Animalpor
dc.relation.referencesAHLMAN, H. & NILSSON, O. The gut as the largest endocrine organ of the body. Annals of Oncology, V. 12, p. 63-68, 2001. ALBERTS, B.; JOHNSON, A.; LEWIS, J.; RAFF, M.; ROBERTS, K.; WALTER, P. Biologia Molecular da Célula. Ed. Artmed, Porto Alegre, 4ª ed., 1584p., 2004. ARIMURA, A.; SATO, H.; DUPONT, A.; NISHI, N.; SCHALLY, A.V. Somatostatin: abundance of immunoreactive hormone in rat stomach and pancreas. Science, V.189, p. 1007-1009, 1975. ASHIHARA, N.; TADDEI, V.A.; HONDO, E.; KITAMURA, N.; PAI, V.D.; CAMPOS, J.; CHOLOQ, N.; YAMADA, J. An immunohistochemical study of gut endocrine cells in Nectarivorous and Frugi-nectarivorous Phillostomid Bat (Chiroptera: Anoura caudifer and Carollia perspicilata). Japanese Journal of Zoo and Wildlife Medicine, V. 4, p. 125-133, 1999. BANSIL, R.; TURNER, B.S. Mucin structure, aggregation, physiological functions and biomedical applications. Curr Opin Colloid, V.11, p. 164–170, 2006. BUDDINGTON, R.K. & KROGDAHL, A. Hormonal regulation of the fish gastrointestinal tract. Comparative Biochemistry and Physiology,V.139, p. 261–271, 2004. CANT, J.P.; MCBRIDE, B.W.; CROOM, W.J. Jr. The regulation of intestinal metabolism and its impact on whole animal energetics. Journal of Animal Science, V.74, p. 2541–2553, 1996. CARVALHEIRA, J.B.C.; ZECCHIN, H.G.; SAAD, M.J.A. Vias de Sinalização da Insulina. Arquivos Brasileiros de Endocrinologia & Metabologia, V. 46, p. 419-425, 2002. CAVIEDES-VIDAL, E.; McWHORTER, T.J.; LAVIN, S.R.; CHEDIACK, J.G.; TRACY, C.R.; KARASOV, W.H. The digestive adaptation of flying vertebrates: high intestinal paracellular absorption compensates for smaller guts. Proceedings of the National Academy of Sciencies, V. 104, p. 19132-19137, 2007. CAVIEDES-VIDAL, E.; KARASOV, W.H.; CHEDIACK, J.G.; FASULO, V.; CRUZNETO, A.P.; OTANI, L. Paracellular absorption: a bat breaks the mammal paradigm. Issue, V. 1, p. 1-7, 2008. 54 CECCARELLI, P.; PEDINI, V.; GARGIULO, M. Serotonin containing cells in the horse gastrointestinal tract. Anatomia, Histologia, Embryologia, V. 24, p. 97-99, 1995. CHARLES-DOMINIQUE, P. 1986. Interrelations between frugivorous vertebrates and pioneer plants: Cecropia, birds and bats in French Guiana. In: Estrada, A. & Fleming, T.H. (Eds.), Frugivores and seed dispersal. W. Junk Publishers, Dordrecht, p.119‑136. ÇINAR, K.; SENOL, N.; RUSTU, O. Immunohistochemical study on distribution of endocrine cells in gastrointestinal tract of flower fish (Pseudophoxinus antalyae). World Journal of Gastroenterology, V. 12. p. 6874-6878, 2006. D’ESTE, L.; BUFFA, R.; PELAGI, M.; SICCARDI, A.G.; RENDA, T. Immunohistochemical localization of chromogranin A and B in the endocrine cells of the alimentary tract of the green frog, Rana esculenta. Cell and Tissue Research, V. 277, p. 341-349, 1994. DIAMOND, J. Evolutionary design of intestinal nutrient absorption: enough but not too much. News in Physiological Sciences, V. 6, p. 92–96, 1991 DÍAZ, M.M.; SOLARI, S.; AGUIRRE, L.F.; AGUIAR, L.M.S.; BARQUEZ, R.M. Clave de identificación de los murciélagos de Sudamérica. Publicación Especial N° 2, PCMA (Programa de Conservación de los Murciélagos de Argentina), 160 pp. 2016. DYCE, K.M.; SACK, W.O; WENSING, C.J.G. Tratado de anatomia veterinária. Ed. Elsevier, Rio de Janeiro, 6ª ed., p. 147-155, 2010. EISENTRAUT, M. Die ernahrung de fledermausen (Microchiroptera). Zoologische Jahrbuecher Systematik, V. 79, p. 14-117, 1950. FAKHRY, J. ;WANG J.; MARTINS, P.; FOTHERGILL, L. J.; HUNNE, B.; PRIEUR P.; SHULKES, A.; REHFELD, J. F.; CALLAGHAN, B.; FURNESS, J. B. Distribution and characterisation of cck containing enteroendocrine cells of the mouse small and large intestine. Cell and Tissue Research, V. 369, p. 245–253, 2017. FARIA, D. Reports on the diet and reproduction of the Ipanema fruit Bat, Pygoderma bilabiatum in a Brazilian forest fragment. Chiroptera Neotropical, V.3, p.65-66,1997. FENTON, M.B.; ACHARYA, L.; AUDET, D.; HICKEY, M.B.C.; MERRIMAN, C.; OBRIST, M.K.; SYME, D.M.; ADKINS, B. Phyllostomid bats (Chiroptera: Phyllostomidae) as indicators of habitat disruption in the Neotropics. Biotropica V. 24, p. 440-446, 1992. FERRI, D.; LIQUORI, G.E.; SCILLITANI, G. Morphological and histochemical variations of mucous and oxynticopeptic cells in the stomach of the seps, Chalcides chalcides. Journal of Anatomy, V. 194, p.71–77, 1999. FILHO, J.T.S.; FONSECA, C.C.; OLIVEIRA, M.G.A.; DONZELE, J.L.; MENIN, E. Determinação do Sistema Endócrino Difuso nos Intestinos de três Teleostei (Pisces) de Água Doce com Hábitos Alimentares Diferentes. Revista Brasileira de Zootecnia, V.30, p.1403-1408, 2001. FLEMING, T.H. Plant-visit bats. American Scientist, V. 81, p. 460-467, 1993. FLEMING, T.H.; & SOSA, V. Effects of nectarivorous and frugivorous mammals on reproductive success of plants. Journal of Mammalogy, V.75, p. 845‑851, 1994. FORMAN, G. L.; PHILLIPS, C. J.; ROUK, C. S. Alimentary tract. In: BAKER, R.J.; JONES JR., J.K.; CARTER, D. C., eds., Biology of bats of new word family phyllostomatidae, Part III. Spec.Publ. Texas Tech Univ., V. 16, p. 205-227, 1979. 55 FUNDAÇÃO SOS MATA ATLÂNTICA. Atlas dos Remanescentes Florestais da Mata Atlântica 1995-2000. Fundação SOS Mata Atlântica e Instituto Nacional de Pesquisas Espaciais. Relatório Final. São Paulo, 46p. 2002. GADELHA-ALVES, R.; ROZENSZTRANCH, A.M.S.; ROCHA-BARBOSA, O. Comparative intestinal histomorphology of five species of Phyllostomid Bats (Phyllostomidae, Microchiroptera): ecomorphological relations with alimentary habits. Internacional Journal of Morphology, V. 26, p. 591-602, 2008. GANONG, W. F. Fisiologia Médica.. Ed. Guanabara Koogan, Rio de Janeiro, 17ª ed., 578 p.,1998. GARCIA, Q.S.; REZENDE, J.L.P.; AGUIAR, L.M.S. Seed dispersal by bats in a disturbed area of Southeastern Brazil. Revista de Biologia. Tropical, V. 48, p.125-128, 2000. GARDNER, A.L. Feeding Habits. Special Publications of Museum Texas Tech University, V. 13, p. 293-350, 1977. GILLETE D. D. Evolution of feeding strategies in bats. Tebiwa, V. 18, p. 39-48, 1975. GOLDSTEIN, M.B. & DAVIES, E.A. The three-dimensional architecture of the islets of Langerhans. Anatomia, Histologia, Embryologia,, V. 71, p.161–171, 1968. GORCHOV, D.L.; CORNEJO, F.; ASCORRA, C.; JARAMILLO, M. The role of seed dispersal in the natural regeneration of rain forest after strip-cutting in the Peruvian Amazon. Vegetatio, V. 107, p.339‑349, 1993. GRUBE, D. & BOHN, R. The microanatomy of human islets of Langerhans, with special reference to somatostatin (D) cells. Archivum histologicum Japonicum, V 46, p.327–353, 1983. GUYTON, A.C. & HALL, J. E. Fisiologia médica. Ed Guanabara Koogan, Rio de Janeiro, 10a ed., 973 p. 2002. HALBAN, P. A. & WEIR, G. C. (1990). In ‘‘Principles and Practice of Embryology and Metabolism’’ (K. L. Becker, Ed.), pp. 1068–1073. Lippincott, Philadelphia. HABER, E. P.; CURI, R.; CARVALHO, C. R. O.; CARPINELLI, A. R. Secreção da Insulina: Efeito Autócrino da Insulina e Modulação por Ácidos Graxos Arquivos Brasileiros de Endocrinologia & Metabologia, V. 45, p. 219-227, 2001. HUANG, X.G.; WU, X.B. Immunohistochemical study on gastrointestinal endocrine cells of four reptiles. World Journal of Gastroenterology, V.11, p. 5498–5505, 2005. IKPEGBU, E.; NLEBEDUM, U.C.; NNADOZIE, O.; AGBAKWURU, I.O. Pancreas of the adult African Giant Pouched Rat (Cricetomys gambianus, Waterhouse -1840): a microanatomical observation. NeBIO V. 4, p. 58-61, 2013. ISHIKAWA, K.; MATOBA, M.; TANAKA, H.; ONO, K. Anatomical study of the intestine of the insect-feeder bat, Myotis frater kaguae. Journal of Anatomy, V. 50, p.142-141, 1985. JUNQUEIRA, L. C. & CARNEIRO, J. Histologia Básica. Ed. Guanabara Koogan, Rio de Janeiro, 12ª ed., 538p., 2013. KAGEYAMA, H.; KITA, T.; HORIE, S.; TAKENOYA, F.; FUNAHASHI, H.; KATO, S.; HIRAYAMA, M.; LEE, E.Y.; SAKURAI, J.; INOUE, S.; SHIODA, S. Immunohistochemical analysis of cholecystokinin a receptor distribution in the rat pancreas. Regulatory Peptides, V.126, p.137-143, 2005. KARARLI, T.T. Comparison of the gastrointestinal anatomy, physiology, and biochemistry of humans and commonly used laboratory animals. Biopharmaceutics & Drug Disposition,V. 80, p.16-351, 1995. 56 KARLSSON, S.; SUNDLER, F.; AHRÉN, B. CCK receptor subtype in insulin-producing cells: a combined functional and in situ hybridization study in rat islets and a rat insulinoma cell line. Regulatory Peptides, V.78, p.95-1103, 1998. KIERSZENBAUM, A. L. Histologia e Biologia Celular: Uma introdução à Patologia. Ed. Elsevier, Rio de Janeiro, 2a ed., 654p., 2004. KOHTAROU, K.; HIROMI, T.I.; MOTOKAZU, U.; KYOKO, M.; AKIHIRO, F.; MASAHIKO, W.; TOSHIHIKO, I. Cellular and subcellular localization of cholecystokinin (CCK)-1 receptors in the pancreas, gallbladder, and stomach of mice. Histochemistry and Cell Biology, V.143, p. 301-312, 2015. KÖNIG, H.E. & LIEBICH, H.G. Anatomia dos animais domésticos. Ed. Artmed, Porto Alegre, 4a ed.,787p., 2007. KRAMER, B. & BUFFENSTEIN, R. The pancreas of the naked mole rat (Heterocephalus glaber): an ultrastructural and immunocytochemical study of the endocrine component of thermoneutral and cold acclimated animals. General and Comparative Endocrinology, V.139, p.206–214, 2004. KU, S.K.; LEE, H.S.; LEE, J. H. Immunohistochemical study on the endocrine cells in gut of the stomach less Teleost, Zacco platypus (Cyprinidae). Anatomia, Histologia, Embryologia. Journal of Veterinary Medicine Series, V. 33, p. 212-219, 2004. KUNZ, T. H.; TORREZ, E. B.; BAUER, D.; LOBOVA, T.; FLEMING, T. H. Ecosystem services provided by bats. Annals of the New York Academy of Sciences, V. 1223, p. 1-38, 2011. LANGER, P. Lactation, weaning period, food quality and digestive tract differentiations in Eutheria. Evolution, V. 57, p. 1196-215, 2003. LAVIN, S.R.; KARASOV, W.H.; IVES, A.R.; MIDDLETON, K.M.; GARLAND, T. Morphometrics of the avian small intestine compared with that of nonflying mammals: a phylogenetic approach. Physiological and Biochemical Zoology, V. 81, p.526-50, 2008. LI,Y.; HAO, Y.; ZHU, J.; OWYANG, C. Serotonin released from intestinal enterochromaffin cells mediates luminal non-cholecystokinin-stimulated pancreatic secretion in rats. Gastroenterology, V. 118, p. 1197-1207, 2000. LIAO, E. P & PORETSKY, L. Endocrinology and Metabolism Clinics of North America. Diabetes Mellitus: Associated Conditions. V. 43, P. 1-330, 2014. MACHADO-SANTOS, C.; NASCIMENTO, A.A.; PERACCHI, A.L.; MIKALAUSKAS, J.S.; GOUVEIA, S.F.; ROCHA, P.A.; SALES, A. Distributions of the endocrine cells in the gastrointestinal tract of nectarivorous and sanguivorous bats: A comparative immunocytochemical study. Tissue and Cell, V 41, p. 222-229, 2009. MACHADO-SANTOS, C.; AQUINO, J.C.F.; MIKALAUKA, J.S.; ABIDU-FIGUEIREDO, M.; MENDES, R.M.M.; SALES, A. What difference exists in the pancreas of mammals with sanguivorous diet? A morphological, stereological and immunohistochemical study of the pancreatic islets of the hematophagous bat Diphylla ecaudata. Regulatory Peptides, V. 183, p. 62–68, 2013. MACHADO-SANTOS, C.; AQUINO, J.C.F.; ROCHA, P.A.; ABIDU-FIGUEIREDO, M.; BRITO-GITIRANA, L.; SALES, A. Influence of feeding habits in the endocrine pancreas of insectivore bat Pteronotus personatus and nectarivore bat Anoura geoffroyi: A comparative stereological and immunohistochemical study. Tissue and Cell, V. 49 p. 2017. 57 MAKANYA, N.A. & MAINA, J.N. The morphology of the intestine of the insectivorous horseshoe bat (Rhinolophus hildebrandti, Peters): a scanning electron and light microscopic study. African Journal of Ecology, V. 32, p. 158–168, 1994. MEDELLIN, R. A. & GAONA, O. Seed dispersal bats and birds in forests and disturbed habitats of Chiapas, Mexico. Biotropica, V. 31, p.478‑485, 1999. MEDELLÍN, R.A.; EQUIHUA, M.; AMIN, M.A. Bat diversity and abundance as indicators of disturbance in netropical rainforests. Conservation Biology, V. 14, p.1666-1675, 2000. MELLO, R.; SILVA, C.M.G.; FONTE, F.P.; SILVA, D.L.F.; PEREIRA, J.A.; MARGARIDO, N.F. Avaliação do número de células caliciformes nas criptas da mucosa colônica com e sem trânsito intestinal. Revista do Colégio Brasileiro de Cirurgiões, V. 39, p. 139-145, 2012. MICHELMORE, A.J.; KEEGAN, D. J.; KRAMER, B. Immunocytochemical Identification of Endocrine Cells in the Pancreas of the Fruit Bat, Rousettus aegyptiacus. General and Comparative Endocrinology V.110, p.319–325, 1998. MIN, H. E.; KAI-YU, W.; YU, Z. Immunocytochemical Identification and Localization of Diffuse Neuroendocrine System (DNES) Cells in Gastrointestinal Tract of Channel Catfish (Ictalurus punctatus). Agricultural Sciences in China, V. 8, p. 238-243, 2009. MORRISON, D.W. Influence of habitat on the foraging distance of the fruit bats, Artibeus jamaicensis. Journal of Mammalogy, V. 59, p.622‑624, 1978. MORISSET, J. Somatostatin One of the Rare Multifunctional Inhibitors of Mammalian Species. Pancreas V. 46, p. 8–18, 2017. MORISSET, J.; JULIEN, S.; LAINÉ, J. Localization of cholecystokinin receptor subtypes in the endocrine pancreas. Journal of Histochemistry & Cytochemistry, V. 51, p.1501-1513, 2003. MOTTA, P. Functional morphology of the feeding apparatus of ten species of Pacific butterfishes perciformes, Chaetodontidae: an ecomorphological approach. Environmental Biology of Fishes, V. 22, p.39-67, 1988. MO, J. Z. & WANG, C. D. Effects of the gut hormones on gastric emptying. Biomdical Research-Tokyo, V. 15, p. 127-131, 1994. NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. The viscera of the domestic mammals. Berlim: Ed. Verlag Paul Parey, Hamburg. 511p., 1973. NOGUEIRA, M. R. & PERACCHI, A. fig-seed predation by 2 species of chiroderma: discovery of a new feeding strategy in bats. Journal of Mammalogy, V. 84, p. 225–233, 2003. NOGUEIRA, M. R.; LIMA, I. P.; MORATELLI, R.; TAVARES, V.C.; GREGORIN, R.; PERACCHI, A. L. Checklist of Brazilian bats, with comments on original records. Check List, V.10, p. 808–821, 2014. OFUSORI, D. A.; CAXTON-MARTINS, E.A.; KOMOLAFE, O.O.; OLUYEMI, K. A.; ADEEYO, O.A.; AJAYI, S.A.; OLUWAYINKA, P. O.; ADELAKUN, E.A.; KEJI, S.T.; ADESANYA, O.A. A Comparative Study of the Ileum in Rat (Rattus norvegicus), Bat (Eidolon helvum) and Pangolin (Manis tricuspis) as Investigated Using Histological Method. International Journal of Morphology, V.26, p.137-141, 2008 OKON, E. E. Functional anatomy of the alimentary canal in the fruit bat, Eidolon helvum, and the insect bat, Tadarida nigeriae. Acta Zoologica, V.58, p.83-93, 1977. 58 PAKSUZ, E. P. The effect of hibernation on the morphology and histochemistry ofthe intestine of the greater mouse-eared bat, Myotis myotis. Acta Histochemica, V.116, p. 1480–1489, 2014. PAKSUZ, E. P. & PAKSUZ, S. The Morphology of the Intestine of the Greater Mouse-Eared Bat, Myotis myotis (Borkhausen, 1797). Global Veterinaria, V. 14, p. 686-692, 2015. PERACCHI, A.L.; NOGUEIRA, M.R.; LIMA, I.P. Novos achegos à lista dos quirópteros do município de Linhares, estado do Espírito Santo, sudeste do Brasil (Mammalia, Chiroptera). Chiroptera Neotropical, V. 17, p. 842-852, 2011. PERACCHI, A. L.; LIMA, I. P.; REIS, N. R.; NOGUEIRA, M. R.; ORTÊNCIO FILHO, H. Ordem Chiroptera. In: Reis, N. R. Peracchi, A. L.; Pedro, W. A.; Lima, I. P (Eds.). Mamíferos do Brasil. 2 ed. Londrina: Nelio R. dos Reis. p.155-234, 2011. PÉREZ-BARBERÍA, F.J.; GORDON, I.J.; ILLIUS, A.W. Phylogenetic analysis of stomach adaptation in digestive strategies in African ruminants. Oecologia, V.129, p. 498-508, 2001. PINKY; MITTAL, S.; MITTAL, A.K. Glycoproteins in the epithelium oflips and associated structures of a hill stream fish Garra lamta(Cyprinidae, Cyprinoformes): a histochemical investigation. Anatomia, Histologia, Embryologia, V. 37, p.101–13, 2008. POLAK, J. M. & BLOOM, S. R. Distribution of newly discovered regulatory peptides. Biomedical Research, V. 4, p. 7-23, 1983. POLAK, J.M.; BISHOP, A.E.; BARBOSA, A.J.A.; BLOOM, S.R. Hormônios gastrointestinais. In: DANI R AND CASTRO LP (Eds), Gastroenterologia Clínica. Rio de Janeiro: Guanabara-Koogan, Brasil, p. 1446-1465. 1993. RACEY, P.A. & SPEAKMAN, J.R. The energy costs of pregnancy and lactation in heterothermic bats. Symposia of the Zoological Society of London, V.57 p.107–125, 1987. REHFELD, J. F. The new biology of gastrointestinal hormones. Physiological Reviews, V. 78, p. 1087-1102, 1998. REIS, N. R. PERACCHI, A. L.; SHIBATTA, O. A.; PEDRO, W. A.; LIMA, I. P Sobre os morcegos brasileiros. In: Reis, N. R. Peracchi, A. L.; Pedro, W. A.; Lima, I. P., Morcegos do Brasil, Londrina, Nélio dos Reis. p.61-98, 2007. ROBIN, H.A. Recherches anatomique sur les mamifères de lórdre des chiropteres. Annales Des Sciences Naturelles comprenant la zoologie, V. 12, p.1-180, 1881. RODRIGUES, S.S.; FONSECA, C. C.; NEVES, M. T. D. Células endócrinas do sistema gastroenteropancreático: Conceitos, distribuição, secreções, ação e controle. Arquivos de Ciências Veterinárias e Zoologia da UNIPAR, V. 8, p. 171-180, 2005. SANTOS, C.M. (2007) Estudo imuno-histoquímico das células Endócrinas do tubo gastrintestinal de Morcegos (mammalia, chiroptera). Dissertação de Mestrado, Programa de Pós-Graduação em Biologia Animal, Universidade Federal Rural do Rio de Janeiro, Seropédica, RJ, Brasil, 60p. SANTOS, C.M.; NASCIMENTO, A. A.; PERACCHI, A. L. ; DIAS, D. ; RIBEIRO, T.P.; SALES, A. A Comparative Immunocytochemical Study of Endocrine Cells in the Digestive Tract of two Frugivorous Bats: Artibeus cinerius and Sturnira lilium. Acta Histochemica, V. 110, p. 134-142, 2008a. SANTOS, C.M.; NASCIMENTO, A.A.; PERACCHI, A.L.; SALES, A.; MIKALAUSKAS, J.S. ; GOUVEIA, S.F.. Immunocytochemical study of 59 gastrintestinal endocrine cells in insectivorous bats (Mammalia: Chiroptera). Brazilian Journal of Biology, V. 68, p. 663-669, 2008b. SAZIMA, M.; FABIÁN, M.E.; SAZIMA, I. Polinização de Luehea speciosa (Tiliaceae) por Glossophaga soricina (Chiroptera, Phyllostomidae). Revista Brasileira de Biologia, V. 42, p.505-513, 1982. SCHUMACHER, U.; DUKU, M.; KATOH, M.; JÖRNS, J.; KRAUSE, W.J. Histochemical similarities of mucins produced by Brunner's glands and pyloric glands: a comparative study. The Anatomical Record, V.278A, p.540-50, 2004. SCHWEIGER, M.; ERHARD, M.H.; AMSELGRUBER, W.M. Cell-specific localization of the cholecystokininA receptor in the porcine pancreas. Anatomia, Histologia, Embryologia, V. 29, p.357-361, 2000. SCILLITANI, G.; ZIZZA, S.; LIQUORI, G.E.; FERRI, D. Lectin histochemistry of gastrointestinal glycoconjugates in the greater horseshoe bat, Rhinolophus ferrumequinum (Schreber, 1774). Acta Histochemica, V.109, p.347-57, 2007. SELIM, A. & NAHAS, E.E. Comparative histological studies on the intestinal wall between the prenatal, the postnatal and the adult of the two species of Egyptian bats. Frugivorous Rousettus aegyptiacus and insectivorous Taphozous nudiventris. The Journal of Basic & Applied Zoology, V. 70, p. 25–32, 2015. SIMMONS, N. B. Order Chiroptera. In: WILSON, D. E.; REEDER, D. M. (Eds.). Mammal species of the world: a taxonomic and geographic reference. 3.ed. v.1. Baltimore: Johns Hopkins University Press, 2005, p.312-529. SIPINSKI, E.A. & REIS, N.R. Dados ecológicos dos quirópteros da Reserva Volta Velha, Itapoá, Santa Catarina, Brasil. Revista Brasileira de Zoologia, V.12, p.519-528, 1995. SLACK, J.M.W. Developmental biology of the pancreas. Development, V.121, p.1569–80, 1995 SMITH, E. L. et al. Bioquímica de mamíferos. Rio de Janeiro: Guanabara Koogan, 1988. 620 p. STROBEL, S.; ENCARNAÇÃO, J.A.; BECKER, N.I.; TRENCZEK, T.E. Histological and histochemical analysis of the gastrointestinal tract of the common pipistrelle bat (Pipistrellus pipistrellus). European Journal of Histochemistry, V.59, p. 107-115, 2015. STUDIER, E.H.; WISNIEWSKI, S.J.; FELDMAN, A.T.; DAPSON, R.W.; BOYD, B. C.; WILSON, D.E. Kidney structure in neotropical bats. Journal of Mammalogy, V. 64, p. 445–452, 1983. TADDEI, V. A. Morcegos: Algumas Considerações Sistemáticas e Biológicas. Boletim Técnico, Coordenadoria de Assistência Técnica Integral, Campinas, São Paulo, V.172, p. 1-31, 1983. TAVOLONI, P. (2005) Diversidade e frugivoria de morcegos filostomídeos (Chiroptera, Phyllostomidae) em habitats secundários e plantios de Pinus spp., no município de Anhembi – SP. Dissertação de Mestrado, no Programa da Escola Superior de Agricultura Luiz de Queiroz, Universidade de São Paulo, Piracicaba, 83 p. TEDMAN, R.A.& HALL, L.S. The morphology of the gastrointestinal tract and food transit time in the fruit bats Pteropus alecto and P. poliocephalus (Megachiroptera). Australian Journal of Zoology, V. 33, p.625–640, 1985. TEELING, C.E.; SPRINGER S.M.; MADSEN, O.; BATES, P.; O’BRIEN, J.S.; MURPHY, J.W. A Molecular Phylogeny for Bats Illuminates Biogeography and the Fossil Record. Science, V. 307, p. 580-584, 2005. 60 TELSER, A.G.; YOUNG, J.K.; BALDWIN, K.M. Histologia. Rio de Janeiro: Editora Elsevier. 2007. THOREL, F.; NEPOTE, T.V.; AVRIL, I.; KOHNO, K.; DESGRAZ, R.; CHERA, S.; HERRERA, P.L. Conversion of adult pancreatic α -cells to β-cells after extreme β-cell loss. Nature, V. 464, p.1149–1154, 2010. UIEDA, W. & VASCONCELLOS-NETO, J. Dispersão de Solanum spp (Solanaceae) por morcegos, na região de Manaus, Amazonas, Revista Brasileira de Zoologia, V. 2, p. 449-458, 1985. VANNER, S. Myenteric neurons activate submucosal vasodilator neurons in guinea pig ileum. American Journal of Physiology. Gastrointestinal and Liver Physiology, V. 279, p. 380-387, 2000. VOIGT, C. C. & KINGSTON T. Bats in the Anthropocene: Conservation of Bats in a Changing World. Ed. Springer, 601p., 2016. WHITTAKER, T.J. &. JONES, S.H. The role of frugivorous bats and birds in the rebuilding of a tropical forest ecosystem, Krakatau, Indonesia. Journal of Biogeography, V.21, p.245‑258, 1994.por
dc.subject.cnpqMorfologiapor
dc.thumbnail.urlhttps://tede.ufrrj.br/retrieve/64739/2017%20-%20Nath%c3%a1lia%20das%20Neves%20Cardoso.pdf.jpg*
dc.originais.urihttps://tede.ufrrj.br/jspui/handle/jspui/4561
dc.originais.provenanceSubmitted by Sandra Pereira (srpereira@ufrrj.br) on 2021-04-19T19:23:26Z No. of bitstreams: 1 2017 - Nathália das Neves Cardoso.pdf: 11717132 bytes, checksum: d635af3ab1a66c958f87eb6960693511 (MD5)eng
dc.originais.provenanceMade available in DSpace on 2021-04-19T19:23:26Z (GMT). No. of bitstreams: 1 2017 - Nathália das Neves Cardoso.pdf: 11717132 bytes, checksum: d635af3ab1a66c958f87eb6960693511 (MD5) Previous issue date: 2017-07-28eng
Appears in Collections:Doutorado em Biologia Animal

Se for cadastrado no RIMA, poderá receber informações por email.
Se ainda não tem uma conta, cadastre-se aqui!

Files in This Item:
File Description SizeFormat 
2017 - Nathália das Neves Cardoso.pdf6.38 MBAdobe PDFThumbnail
View/Open
Show simple item record


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.