Histochemistry Of Intestinal Enzymes Of Juvenile Dourado Salminus Brasiliensis Fed Bovine Colostrum

Enzyme activity was evaluated in the intestine of juvenile dourado (Salminus brasiliensis) fed with diets containing 0, 10 or 20% of lyophilized bovine colostrum (LBC) inclusion for either 30 or 60 days. The intestinal enzymes acid and alkaline phosphatase (ACP and ALP, respectively), non-specific e...

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Main Authors: Moretti, Debora B., Wiolene M. Nordi, Thaline Maira P. Cruz, Cyrino, José Eurico P., Machado-Neto, Raul
Format: Text
Language:English
Published: Zenodo 2014
Subjects:
Online Access:https://dx.doi.org/10.5281/zenodo.1096253
https://zenodo.org/record/1096253
id ftdatacite:10.5281/zenodo.1096253
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Carnivorous fish
enterocyte
intestinal epithelium
teleost.
spellingShingle Carnivorous fish
enterocyte
intestinal epithelium
teleost.
Moretti, Debora B.
Wiolene M. Nordi
Thaline Maira P. Cruz
Cyrino, José Eurico P.
Machado-Neto, Raul
Histochemistry Of Intestinal Enzymes Of Juvenile Dourado Salminus Brasiliensis Fed Bovine Colostrum
topic_facet Carnivorous fish
enterocyte
intestinal epithelium
teleost.
description Enzyme activity was evaluated in the intestine of juvenile dourado (Salminus brasiliensis) fed with diets containing 0, 10 or 20% of lyophilized bovine colostrum (LBC) inclusion for either 30 or 60 days. The intestinal enzymes acid and alkaline phosphatase (ACP and ALP, respectively), non-specific esterase (NSE), lipase (LIP), dipeptidyl aminopeptidase IV (DAP IV) and leucine aminopeptidase (LAP) were studied using histochemistry in four intestinal segments (S1, S2, S3 and posterior intestine). Weak proteolitic activity was observed in all intestinal segments for DAP IV and LAP. The activity of NSE and LIP was also weak in all intestines, except for the moderate activity of NSE in the S2 of 20% LBC group after 30 days and in the S1 of 0% LBC group after 60 days. The ACP was detected only in the S2 and S3 of the 10% LBC group after 30 days. Moderate and strong staining was observed in the first three intestinal segments for ALP and weak activity in the posterior intestine. The activity of DAP IV, LAP and ALP were also present in the cytoplasm of the enterocytes. In the present results, bovine colostrum feeding did not cause alterations in activity of intestinal enzymes. : {"references": ["A. Huguet, B. S\u00e8ve, J. Le Dividich, and I. Le Hu\u00ebrou-Luron, \"Effects of\na bovine colostrum-supplemented diet on some gut parameters in\nweaned piglets\", Reproduction Nutrition Development, vol. 46, pp. 167-\n178, 2006.", "A.L. Lima, P. Pauletti, I. Susin, and R. Machado-Neto, \"Fluctuation of\nserum variables in goats and comparative study of antibody absorption\nin newborn kids using cattle and goat colostrum\", Brazilian Journal of\nAnimal Science, vol. 38, pp. 2211-2217, 2009.", "D.B. Moretti, L. Kindlein, P. Pauletti, and R. Machado-Neto, \"IgG\nabsorption by Santa Ines lambs fed Holstein bovine colostrum or Santa\nInes ovine colostrum\", Animal, vol. 4, pp. 933-937, 2010.", "A.P.O Rodrigues, P. Pauletti, L. Kindlein, J.E.P. Cyrino, E.F. Delgado,\nand R. Machado-Neto, \"Intestinal morphology and histology of the\nstriped catfish Pseudoplatystoma fasciatum (Linnaeus, 1766) fed dry\ndiets\", Aquaculture Nutrition, vol. 15, pp. 55-563, 2009.", "P. Bodammer, C. Maletzki, G. Waitz, and J. Emmrich, \"Prophylatic\napplication of bovine colostrum ameliorates murine colitis via induction\nof immunoregulatory cells\", Journal of Nutrition, vol. 141, pp. 1056-\n1061, 2011.", "D.B. Moretti, W.M. Nordi, A.L. Lima, P. Pauletti, I. Susin, and R.\nMachado-Neto, \"Enzyme activity in the small intestine of goat kids\nduring the period of passive immunity acquisition\", Small Ruminant\nResearch, vol. 105, pp. 321-328, 2012.", "N.N. Pandey, A.A. Dar, D.B. Mondal, and L. Nagaraja, \"Bovine\ncolostrum: A veterinary nutraceutical\", Journal of Veterinary Medicine\nand Animal Health, vol. 3, pp. 31-35, 2011.", "L.J. Schep, I.G. Tucker, G. Young, R. Ledger, and A.G. Butt,\n\"Controlled release opportunities for oral peptide delivery in\naquaculture\", Journal of Controlled Release, vol. 59, pp. 1-14, 1999.", "R.L. Barbieri, and F.J. Hern\u00e1ndez-Blazquez, \"An\u00e1lise ultra-estrutural da\nabsor\u00e7\u00e3o intestinal de macromol\u00e9cula prot\u00e9ica com o uso de peixe como\nmodelo experimental\", ConScientiae Sa\u00fade, vol. 1, pp. 21-30, 2002.\n[10] K. Opuszynski, and J.V. Shireman, \"Digestive mechanisms (book\nstyle)\". In Herbivorous Fishes: Culture and Use for Weed Management,\nK. Opuszynski and J.V. Shireman, Boca Raton, FL: CRC Press, 1995,\npp.21-31.\n[11] R. Ledger, I.G. Tucker, and G.F. Walker, \"The metabolic barrier of the\nlower intestinal tract of salmon to the oral delivery of protein and\npeptide drugs\", Journal of Controlled Release, vol. 85, pp. 91-103, 2002.\n[12] D.M. Fracalossi, G. Meyer, F.M. Santamaria, M. Weingastner, and E.\nZaniboni Filho, \"Desempenho do jundi\u00e1, Rhamdia quelen, e do dourado,\nSalminus brasiliensis, em viveiros de terra na Regi\u00e3o Sul do Brasil\",\nActa Scientiarum, vol. 26, pp. 345-352, 2004.\n[13] Association of Official Analytical Chemists. Official methods of\nanalysis, 18th ed. vol. 2, Arlington, VA: AOAC, 2004.\n[14] S.S. Rodrigues, and E. Menin, \"Anatomia do tubo digestivo de Salminus\nbrasiliensis (Cuvier, 1818) (Pisces, Characidae, Salmininae)\", Biotemas,\nvol. 21, pp. 65-75, 2008.\n[15] Z. Lodja, \"Studies on Dipeptidyl(Amino)Peptidase IV (Glycyl-Proline\nNaphthylamidase)\", Histochemistry, vol. 59, pp. 153-166, 1979.\n[16] J.D. Bancroft, \"Enzyme histochemistry\", in Theory and Practice of\nHistological Techniques, vol. 4, J.D. Bancroft, and A. Stevens), New\nYork, NY: Churchill Livingstone, 1996, pp.391-410.\n[17] K.N. Hirji, and W.A.M. Courtney \"Leucine aminopeptidase activity in\nthe digestive tract of perch, Perca fluviatilis L\", Journal of Fish Biology,\nvol. 21, pp. 615\u2013622, 1982.\n[18] A. Gawlicka, S. Teh, S.S.O. Hung, E. Hinton, and J. De Ll No\u00fce,\n\"Histological and histochemical changes in the digestive tract of white\nsturgeon larvae during ontogeny\", Fish Physiology and Biochemistry,\nvol. 14, pp. 357-371, 1995.\n[19] B. Tengjaroenkul, B.J. Smith, T. Caceci, and S.A. Smith, \"Distribution\nof intestinal enzyme activities along the intestinal tract of cultured Nile\ntilapia, Oreochromis niloticus L\", Aquaculture, vol. 182, pp. 317\u2013327,\n2000.\n[20] V.V. Kuz'mina, \"Classical and modern concepts in fish digestion\", in\nFeeding and Digestive Functions of Fishes, J.E.P Cyrino, D.B Bureau,\nand B.G. Kapoor, Enfield, NH: Science Publishers, 2008, pp. 85-154.\n[21] V.V. Kuz'mina, and A.G. Gelman, \"Membrane-linked digestion in fish\",\nReviews in Fisheries Science, vol. 5, pp. 99-129, 1997.\n[22] E. McLean, B. R\u00f8nsholdt, C. Sten, and Najamuddin, \"Gastrointestinal\ndelivery of peptide and protein drugs to aquaculture teleosts\",\nAquaculture, vol. 177, pp. 231-247, 1999.\n[23] J. Walford, and T.J. Lam, \"Development of digestive tract and\nproteolytic enzyme activity in seabass (Lates calcarifer) larvae and\njuveniles\", Aquaculture, vol. 109, pp. 187-05, 1993.\n[24] J.L. Zambonino Infante, and C.J. Cahu, \"High dietary lipid levels\nenhance digestive tract maturation and improve Dicentrarchus labrax\nlarval development\", Journal of Nutrition, vol. 129, pp. 1195-1200,\n1999.\n[25] V. Buchet, J.L. Zambonino Infante, and C.L. Cahu, \"Effect of lipid level\nin a compound diet on the development of red drum (Sciaenops\nocellatus) larvae\", Aquaculture, vol. 184, pp. 339-347, 2000.\n[26] M.S. Izquierdo, J. Socorro, L. Arantzamendi, and C.M. Hernandez-Cruz,\n\"Recent advances in lipid nutrition in fish larvae\", Fish Physiology and\nBiochemistry, vol. 22, pp. 97-107, 2000.\n[27] S. Morais, M. Lacuisse, L.E.C. Concei\u00e7\u00e3o, M.T. Dinis, and I.\nR\u00f8nnestad, \"Ontogeny of the digestive capacity of Senegalese sole\n(Solea senegalensis), with respect to digestion, absorption and\nmetabolism of amino acids from Artemia\", Marine Biology, vol. 145,\npp. 243-50, 2004.\n[28] B. Savona, C. Tramati, and A. Mazzola, \"Digestive enzymes in larvae\nand juveniles of farmed sharpsnout seabream (Diplodus puntazzo)\n(Cetti, 1777)\", The Open Marine Biology Journal, vol. 5, pp. 47-57,\n2011.\n[29] Z. Kozari\u0107, Z. Petrinec, S. Ku\u017eir, E. Gjur\u010devi\u0107, and B. Ba\u017edari\u0107,\n\"Histochemical analyses of digestive enzymes in the intestine of adult\nlarge-scale gurnard (Lepidotrigla cavillone, Lacep\u00e8de, 1801)\",\nAnatomia, Histologia, Embryologia, vol. 40, pp. 314-320, 2011.\n[30] K. Baintner, 1994, \"Demonstration of acidity intestinal vacuoles of the\nsuckling rat and pig\", Journal of Histochemistry and Cytochemistry, vol.\n42, pp. 231-238, 1994.\n[31] I. Hussain, and A. Channa, \"Histochemical distribution of lipase and\nacid phosphatase in the intestinal tract of the snow trout, Schizothorax\ncurvifrons Heckel\", Journal of Biological Sciences, vol. 10, pp. 643-647,\n2010.\n[32] Y. Dupuis, S. Tardivel, Z. Porembska, and P. Fournier, \"Effect of some\nphosphatase inhibitors on intestinal calcium transfer\", International\nJournal of Biochemistry, vol. 23, pp. 175\u2013180, 1991.\n[33] A. Mahmood, F. Yamagishi, R. Eliakim, K. DeSchryver-Kecskemeti,\nT.L. Gramlich, and D.H. Alpers, \"A possible role for rat intestinal\nsurfactant-like particles in transepithelial triacylglycerol transport\",\nJournal of Clinical Investigation, vol. 93, pp. 70\u201380, 1994.\n[34] Z. Kozari\u0107, S. Ku\u017eir, Z. Petrinec, E. Gjur\u010devi\u0107, and A. Opa\u010dak,\n\"Histochemical distribution of digestive enzymes in intestine of\ngoldline, Sarpa salpa L. 1758\", Journal of Applied Ichthyology, vol. 22,\npp. 43-48., 2006."]}
format Text
author Moretti, Debora B.
Wiolene M. Nordi
Thaline Maira P. Cruz
Cyrino, José Eurico P.
Machado-Neto, Raul
author_facet Moretti, Debora B.
Wiolene M. Nordi
Thaline Maira P. Cruz
Cyrino, José Eurico P.
Machado-Neto, Raul
author_sort Moretti, Debora B.
title Histochemistry Of Intestinal Enzymes Of Juvenile Dourado Salminus Brasiliensis Fed Bovine Colostrum
title_short Histochemistry Of Intestinal Enzymes Of Juvenile Dourado Salminus Brasiliensis Fed Bovine Colostrum
title_full Histochemistry Of Intestinal Enzymes Of Juvenile Dourado Salminus Brasiliensis Fed Bovine Colostrum
title_fullStr Histochemistry Of Intestinal Enzymes Of Juvenile Dourado Salminus Brasiliensis Fed Bovine Colostrum
title_full_unstemmed Histochemistry Of Intestinal Enzymes Of Juvenile Dourado Salminus Brasiliensis Fed Bovine Colostrum
title_sort histochemistry of intestinal enzymes of juvenile dourado salminus brasiliensis fed bovine colostrum
publisher Zenodo
publishDate 2014
url https://dx.doi.org/10.5281/zenodo.1096253
https://zenodo.org/record/1096253
long_lat ENVELOPE(-139.171,-139.171,64.024,64.024)
ENVELOPE(-61.860,-61.860,-64.566,-64.566)
ENVELOPE(-63.150,-63.150,-64.533,-64.533)
ENVELOPE(-62.167,-62.167,-74.500,-74.500)
ENVELOPE(-56.950,-56.950,-64.333,-64.333)
ENVELOPE(-134.337,-134.337,61.333,61.333)
geographic Arlington
Bancroft
Fournier
Hernandez
Izquierdo
Livingstone
geographic_facet Arlington
Bancroft
Fournier
Hernandez
Izquierdo
Livingstone
genre Red drum
genre_facet Red drum
op_relation https://dx.doi.org/10.5281/zenodo.1096252
op_rights Open Access
Creative Commons Attribution 4.0
https://creativecommons.org/licenses/by/4.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC-BY
op_doi https://doi.org/10.5281/zenodo.1096253
https://doi.org/10.5281/zenodo.1096252
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spelling ftdatacite:10.5281/zenodo.1096253 2023-05-15T18:06:09+02:00 Histochemistry Of Intestinal Enzymes Of Juvenile Dourado Salminus Brasiliensis Fed Bovine Colostrum Moretti, Debora B. Wiolene M. Nordi Thaline Maira P. Cruz Cyrino, José Eurico P. Machado-Neto, Raul 2014 https://dx.doi.org/10.5281/zenodo.1096253 https://zenodo.org/record/1096253 en eng Zenodo https://dx.doi.org/10.5281/zenodo.1096252 Open Access Creative Commons Attribution 4.0 https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess CC-BY Carnivorous fish enterocyte intestinal epithelium teleost. Text Journal article article-journal ScholarlyArticle 2014 ftdatacite https://doi.org/10.5281/zenodo.1096253 https://doi.org/10.5281/zenodo.1096252 2021-11-05T12:55:41Z Enzyme activity was evaluated in the intestine of juvenile dourado (Salminus brasiliensis) fed with diets containing 0, 10 or 20% of lyophilized bovine colostrum (LBC) inclusion for either 30 or 60 days. The intestinal enzymes acid and alkaline phosphatase (ACP and ALP, respectively), non-specific esterase (NSE), lipase (LIP), dipeptidyl aminopeptidase IV (DAP IV) and leucine aminopeptidase (LAP) were studied using histochemistry in four intestinal segments (S1, S2, S3 and posterior intestine). Weak proteolitic activity was observed in all intestinal segments for DAP IV and LAP. The activity of NSE and LIP was also weak in all intestines, except for the moderate activity of NSE in the S2 of 20% LBC group after 30 days and in the S1 of 0% LBC group after 60 days. The ACP was detected only in the S2 and S3 of the 10% LBC group after 30 days. Moderate and strong staining was observed in the first three intestinal segments for ALP and weak activity in the posterior intestine. The activity of DAP IV, LAP and ALP were also present in the cytoplasm of the enterocytes. In the present results, bovine colostrum feeding did not cause alterations in activity of intestinal enzymes. : {"references": ["A. Huguet, B. S\u00e8ve, J. Le Dividich, and I. Le Hu\u00ebrou-Luron, \"Effects of\na bovine colostrum-supplemented diet on some gut parameters in\nweaned piglets\", Reproduction Nutrition Development, vol. 46, pp. 167-\n178, 2006.", "A.L. Lima, P. Pauletti, I. Susin, and R. Machado-Neto, \"Fluctuation of\nserum variables in goats and comparative study of antibody absorption\nin newborn kids using cattle and goat colostrum\", Brazilian Journal of\nAnimal Science, vol. 38, pp. 2211-2217, 2009.", "D.B. Moretti, L. Kindlein, P. Pauletti, and R. Machado-Neto, \"IgG\nabsorption by Santa Ines lambs fed Holstein bovine colostrum or Santa\nInes ovine colostrum\", Animal, vol. 4, pp. 933-937, 2010.", "A.P.O Rodrigues, P. Pauletti, L. Kindlein, J.E.P. Cyrino, E.F. Delgado,\nand R. Machado-Neto, \"Intestinal morphology and histology of the\nstriped catfish Pseudoplatystoma fasciatum (Linnaeus, 1766) fed dry\ndiets\", Aquaculture Nutrition, vol. 15, pp. 55-563, 2009.", "P. Bodammer, C. Maletzki, G. Waitz, and J. Emmrich, \"Prophylatic\napplication of bovine colostrum ameliorates murine colitis via induction\nof immunoregulatory cells\", Journal of Nutrition, vol. 141, pp. 1056-\n1061, 2011.", "D.B. Moretti, W.M. Nordi, A.L. Lima, P. Pauletti, I. Susin, and R.\nMachado-Neto, \"Enzyme activity in the small intestine of goat kids\nduring the period of passive immunity acquisition\", Small Ruminant\nResearch, vol. 105, pp. 321-328, 2012.", "N.N. Pandey, A.A. Dar, D.B. Mondal, and L. Nagaraja, \"Bovine\ncolostrum: A veterinary nutraceutical\", Journal of Veterinary Medicine\nand Animal Health, vol. 3, pp. 31-35, 2011.", "L.J. Schep, I.G. Tucker, G. Young, R. Ledger, and A.G. Butt,\n\"Controlled release opportunities for oral peptide delivery in\naquaculture\", Journal of Controlled Release, vol. 59, pp. 1-14, 1999.", "R.L. Barbieri, and F.J. Hern\u00e1ndez-Blazquez, \"An\u00e1lise ultra-estrutural da\nabsor\u00e7\u00e3o intestinal de macromol\u00e9cula prot\u00e9ica com o uso de peixe como\nmodelo experimental\", ConScientiae Sa\u00fade, vol. 1, pp. 21-30, 2002.\n[10] K. Opuszynski, and J.V. Shireman, \"Digestive mechanisms (book\nstyle)\". In Herbivorous Fishes: Culture and Use for Weed Management,\nK. Opuszynski and J.V. Shireman, Boca Raton, FL: CRC Press, 1995,\npp.21-31.\n[11] R. Ledger, I.G. Tucker, and G.F. Walker, \"The metabolic barrier of the\nlower intestinal tract of salmon to the oral delivery of protein and\npeptide drugs\", Journal of Controlled Release, vol. 85, pp. 91-103, 2002.\n[12] D.M. Fracalossi, G. Meyer, F.M. Santamaria, M. Weingastner, and E.\nZaniboni Filho, \"Desempenho do jundi\u00e1, Rhamdia quelen, e do dourado,\nSalminus brasiliensis, em viveiros de terra na Regi\u00e3o Sul do Brasil\",\nActa Scientiarum, vol. 26, pp. 345-352, 2004.\n[13] Association of Official Analytical Chemists. Official methods of\nanalysis, 18th ed. vol. 2, Arlington, VA: AOAC, 2004.\n[14] S.S. Rodrigues, and E. Menin, \"Anatomia do tubo digestivo de Salminus\nbrasiliensis (Cuvier, 1818) (Pisces, Characidae, Salmininae)\", Biotemas,\nvol. 21, pp. 65-75, 2008.\n[15] Z. Lodja, \"Studies on Dipeptidyl(Amino)Peptidase IV (Glycyl-Proline\nNaphthylamidase)\", Histochemistry, vol. 59, pp. 153-166, 1979.\n[16] J.D. Bancroft, \"Enzyme histochemistry\", in Theory and Practice of\nHistological Techniques, vol. 4, J.D. Bancroft, and A. Stevens), New\nYork, NY: Churchill Livingstone, 1996, pp.391-410.\n[17] K.N. Hirji, and W.A.M. Courtney \"Leucine aminopeptidase activity in\nthe digestive tract of perch, Perca fluviatilis L\", Journal of Fish Biology,\nvol. 21, pp. 615\u2013622, 1982.\n[18] A. Gawlicka, S. Teh, S.S.O. Hung, E. Hinton, and J. De Ll No\u00fce,\n\"Histological and histochemical changes in the digestive tract of white\nsturgeon larvae during ontogeny\", Fish Physiology and Biochemistry,\nvol. 14, pp. 357-371, 1995.\n[19] B. Tengjaroenkul, B.J. Smith, T. Caceci, and S.A. Smith, \"Distribution\nof intestinal enzyme activities along the intestinal tract of cultured Nile\ntilapia, Oreochromis niloticus L\", Aquaculture, vol. 182, pp. 317\u2013327,\n2000.\n[20] V.V. Kuz'mina, \"Classical and modern concepts in fish digestion\", in\nFeeding and Digestive Functions of Fishes, J.E.P Cyrino, D.B Bureau,\nand B.G. Kapoor, Enfield, NH: Science Publishers, 2008, pp. 85-154.\n[21] V.V. Kuz'mina, and A.G. Gelman, \"Membrane-linked digestion in fish\",\nReviews in Fisheries Science, vol. 5, pp. 99-129, 1997.\n[22] E. McLean, B. R\u00f8nsholdt, C. Sten, and Najamuddin, \"Gastrointestinal\ndelivery of peptide and protein drugs to aquaculture teleosts\",\nAquaculture, vol. 177, pp. 231-247, 1999.\n[23] J. Walford, and T.J. Lam, \"Development of digestive tract and\nproteolytic enzyme activity in seabass (Lates calcarifer) larvae and\njuveniles\", Aquaculture, vol. 109, pp. 187-05, 1993.\n[24] J.L. Zambonino Infante, and C.J. Cahu, \"High dietary lipid levels\nenhance digestive tract maturation and improve Dicentrarchus labrax\nlarval development\", Journal of Nutrition, vol. 129, pp. 1195-1200,\n1999.\n[25] V. Buchet, J.L. Zambonino Infante, and C.L. Cahu, \"Effect of lipid level\nin a compound diet on the development of red drum (Sciaenops\nocellatus) larvae\", Aquaculture, vol. 184, pp. 339-347, 2000.\n[26] M.S. Izquierdo, J. Socorro, L. Arantzamendi, and C.M. Hernandez-Cruz,\n\"Recent advances in lipid nutrition in fish larvae\", Fish Physiology and\nBiochemistry, vol. 22, pp. 97-107, 2000.\n[27] S. Morais, M. Lacuisse, L.E.C. Concei\u00e7\u00e3o, M.T. Dinis, and I.\nR\u00f8nnestad, \"Ontogeny of the digestive capacity of Senegalese sole\n(Solea senegalensis), with respect to digestion, absorption and\nmetabolism of amino acids from Artemia\", Marine Biology, vol. 145,\npp. 243-50, 2004.\n[28] B. Savona, C. Tramati, and A. Mazzola, \"Digestive enzymes in larvae\nand juveniles of farmed sharpsnout seabream (Diplodus puntazzo)\n(Cetti, 1777)\", The Open Marine Biology Journal, vol. 5, pp. 47-57,\n2011.\n[29] Z. Kozari\u0107, Z. Petrinec, S. Ku\u017eir, E. Gjur\u010devi\u0107, and B. Ba\u017edari\u0107,\n\"Histochemical analyses of digestive enzymes in the intestine of adult\nlarge-scale gurnard (Lepidotrigla cavillone, Lacep\u00e8de, 1801)\",\nAnatomia, Histologia, Embryologia, vol. 40, pp. 314-320, 2011.\n[30] K. Baintner, 1994, \"Demonstration of acidity intestinal vacuoles of the\nsuckling rat and pig\", Journal of Histochemistry and Cytochemistry, vol.\n42, pp. 231-238, 1994.\n[31] I. Hussain, and A. Channa, \"Histochemical distribution of lipase and\nacid phosphatase in the intestinal tract of the snow trout, Schizothorax\ncurvifrons Heckel\", Journal of Biological Sciences, vol. 10, pp. 643-647,\n2010.\n[32] Y. Dupuis, S. Tardivel, Z. Porembska, and P. Fournier, \"Effect of some\nphosphatase inhibitors on intestinal calcium transfer\", International\nJournal of Biochemistry, vol. 23, pp. 175\u2013180, 1991.\n[33] A. Mahmood, F. Yamagishi, R. Eliakim, K. DeSchryver-Kecskemeti,\nT.L. Gramlich, and D.H. Alpers, \"A possible role for rat intestinal\nsurfactant-like particles in transepithelial triacylglycerol transport\",\nJournal of Clinical Investigation, vol. 93, pp. 70\u201380, 1994.\n[34] Z. Kozari\u0107, S. Ku\u017eir, Z. Petrinec, E. Gjur\u010devi\u0107, and A. Opa\u010dak,\n\"Histochemical distribution of digestive enzymes in intestine of\ngoldline, Sarpa salpa L. 1758\", Journal of Applied Ichthyology, vol. 22,\npp. 43-48., 2006."]} Text Red drum DataCite Metadata Store (German National Library of Science and Technology) Arlington ENVELOPE(-139.171,-139.171,64.024,64.024) Bancroft ENVELOPE(-61.860,-61.860,-64.566,-64.566) Fournier ENVELOPE(-63.150,-63.150,-64.533,-64.533) Hernandez ENVELOPE(-62.167,-62.167,-74.500,-74.500) Izquierdo ENVELOPE(-56.950,-56.950,-64.333,-64.333) Livingstone ENVELOPE(-134.337,-134.337,61.333,61.333)