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The effect of taurine on animal behavior

Yıl 2020, Vetexpo-2019, KHVD-2019, 29 - 29, 31.03.2020

Öz

Taurine (TAU) is an essential or semi-essential amino acid according to the animal species. It has many
basic physiological functions such as membrane stabilization, cell signaling, osmoregulation and bile acid
conjugation. This review focuses on the behavioral and cognitive effects of taurine in different animal
species. Taurine, found in various body tissues, is the most common amino acid after glutamate in the
mammalian nervous system. It is especially common in developing brain. It is distributed in the
cerebellum, cortex and hippocampus. Studies in rats and zebra fish have shown that taurine is effective in
stress-related mechanisms. These effects are induced by inhibiting the hypothalamic-pituitary-adrenal axis
(HPA) and activating the glycine receptor. Taurine prevents the reduction of serotonin, dopamine,
noradrenaline levels in rats under chronic stress, and prevents excessive release of glutamate and
corticosterone. Thus, it has anti-depressive and anxiolytic effects. A study on blue tits revealed that the
amount of taurine taken during the growth period shaped long-term adulthood behaviors. It has been
observed that offspring develop their spatial / spatial learning abilities and increase their risk-taking
potential, especially when researching new objects. A study of zebra fish indicated that taurine use reduces
the risk assessment behavior, which is a defense approach. Spatial learning ability and risk-taking
tendency are influential on an individual's competitiveness and prey success. As a result, taurine affects the
development of brain regions that control the HPA axis. Taurine supplementation enhances hippocampal
development and function, which affects stress response and spatial learning. Interacting with learning
mechanisms, taurine plays an important role in the formation of behavioral phenotypes of offspring. In the
light of all this information, there is almost no scientific study on how taurine, which is widely used as a
nutritional supplement in cat and dog nutrition, affects the behavior in these animals. Because of the
cognitive and behavioral effects mentioned above, taurine is thought to play an active role in cat and dog
breeding and training. Further research is needed to prevent depression and anxiety in pet animals.

Kaynakça

  • Aerts, L. & Van Assche, F. (2005). Taurine and taurine-deficiency in the perinatal period. Journal of Perinatal Medicine, 30(4), pp. 281-286. Retrieved 5 Sep. 2019, from doi:10.1515/JPM.2002.040 Anacker, C. et al. (2013). Glucocorticoid-related molecular signaling pathways regulating hippocampal neurogenesis. Neuropsychopharmacology: official publication of the American College of Neuropsychopharmacology. 38, 872–883. Aragon C.M., Trudeau L.E., Amit Z. (1992) Effect of taurine on ethanol-induced changes in openfield locomotor activity. Psychopharmacol (Berl)., 107: 337–340 Arnold K.E., Ramsay S.L., Donaldson C., Adam A. (2007) Parental prey selection affects risk-taking behaviour and spatial learning in avian offspring. Proc. R. Soc. 274 B, 2563–2569. Bland, S. T. et al. (2007). Expression of fibroblast growth factor-2 and brain-derived neurotrophic factor mRNA in the medial prefrontal cortex and hippocampus after uncontrollable or controllable stress. Neuroscience. 144, 1219–1228. Chen C., Xia S., He J., Lu G., Xie Z., Han H., (2019) Roles of taurine in cognitive function of physiology, pathologies and toxication. Life Sciences, 231. Chen S.W., Kong W. X., Zhang Y.J., Li Y.L., Mi X.J., Mu X.S. (2004) Possible anxiolytic effects of taurine in the mouse elevated plus-maze. Science Direct, Life Sciences. 75. 1503-1511. Compere, V. et al. (2005). In vivo action of a new octadecaneuropeptide antagonist on neuropeptide Y and corticotropin-releasing hormone mRNA levels in rat. Brain research. Molecular brain research. 141, 156– 160. Chakroborty, B. et al. (2019) Taurine modulates neurobehavioral impairments in lambda cyhalothrin induced male albino rats. World Journal Of Pharmaceutical Research. 8, 3, 907-925 DiChiara G., Canba R., Spano P.F. (1971) Evidence for inhibition by brain serotonin of mouse killing behaviour in rats. Nature. (Lond.),; 233: 272-273. Elfving, B., Plougmann, P. H. & Wegener, G. (2010). Differential brain, but not serum VEGF levels in a genetic rat model of depression. Neurosci Lett. 474, 13–16. Erickson, K., Drevets, W. & Schulkin, J. (2003). Glucocorticoid regulation of diverse cognitive functions in normal and pathological emotional states. Neuroscience & Biobehavioral Reviews. 27, 233–246. International VETEXPO-2019 Veterinary Sciences Congress September 20-22 2019. Double Tree by Hilton Hotel, Avcilar /Istanbul, Turkey 93 This work is licensed under the Creative Commons Attribution 4.0 International License. Fontana, B.D., Meinerz, D.L., Rosa, L.V., Mezzomo, N.J., Silveira, A., Giuliani, G.S., Quadros, V.A., Filho, G.L., Blaser, R.E., Rosemberg, D.B., 2016. Modulatory action of taurine on ethanol-induced aggressive behavior in zebrafish. Pharmacol. Biochem. Behav. 141, 18–27. Fontana B.D., Stefanello F.V., Mezzomo N.J., Müllera T.E., Quadrosa V.A., Parkerd M.O., Ricof E.P., Rosemberg D.B. (2018) 182 Taurine modulates acute ethanol-induced social behavioral deficits and fear responses in adult zebrafish. Journal of Psychiatric Research 104 176-182. Gibbons J.L., Gordon A., Wagner B., Bridger H., Leibowitz S.F.(1978). Effects of parachlorophenylalanine and 5-hydroxytryptophan on mouse killing behavior in killer rats Pharmacol Biochem Behaviour. 9(1): 91-98. Herbert, J. et al. (2006). Do Corticosteroids Damage the Brain? Journal of Neuroendocrinology. 18, 393– 411. Huxtable, R.J., 1989. Taurine in the central nervous system and the mammalian actions of taurine. Prog. Neurobiol. 32, 471^533. Idrissi A.E. (2019). Taurine Regulation of Neuroendocrine Function. Advances in Experimental Medicine and Biology. Springer Nature Singapore Pte Ltd. 2019 977 J. Hu et al. (eds.), Taurine 11, 1155. Idrissi A.E., C.H. Shen, W.J. L’Amoreaux, (2013) Neuroprotective role of taurine during aging, Amino Acids 45 735-750. Idrissi A.E., Trenkner E. (2004) Taurine as a modulator of excitatory and inhibitory neurotransmission. Neurochem Res., 29: 189–197. Jung Y.M., Choi M.J. (2019) Relation of Taurine Intake During Pregnancy and Newborns’ Growth. Advances in Experimental Medicine and Biology. Springer Nature Singapore Pte Ltd. 283 J. Hu et al. (eds.), Taurine 11, 1155. Kalueff A.V., M. Gebhardt, A.M. Stewart, J.M. Cachat, M. Brimmer, J.S. Chawla, C. Craddock, E.J. Kyzar, A. Roth, S. Landsman, S. Gaikwad, K. Robinson, E. Baatrup, K. Tierney, A. Shamchuk, W. Norton, N. Miller, T. Nicolson, O. Braubach, C.P. Gilman, J. Pittman, D.B. Rosemberg, R. Gerlai, D. Echevarria, E. Lamb, S.C.F. Neuhauss, W. Weng, L. Bally-Cuif, H. Schneider, (2013) Towards a comprehensive catalog of zebrafish behavior 1.0 and beyond, Zebrafish 10. 70–86. Jakaria Md, Azam S., Md. Ezazul H., Jo S., Md. Sahab Uddin ,In-Su Kim, Choi D.K. (2019) Taurine and its analogs in neurological disorders: Focus on therapeutic potential and molecular mechanisms. Redox Biology, 24, 101223 Jia, N., Sun, Q., Su, Q., Dang, S., Chen, G., 2016. Taurine promotes cognitive function in prenatally stressed juvenile rats via activating the Akt-CREB-PGC1alpha pathway. Redox Biol. 10, 179–190. Karan S. (1991) Taurine in Infant Nutrition. Indian Journal of Pediatrics, 58 : 311-316 Knopf K., Sturman J. A., Armstrong M., Hayes K.C. (1978) Taurine: An Essential Nutrient for the Cat. The Journal of Nutrition, Volume 108, 773–778. Kim H.Y. , Kim. H.V., Yoon J.H., Kang B.R., Cho S.M. , Lee S., Kim J.Y., Kim J.V., Cho Y., Woo J., Kim Y.S. (2014) Taurine in drinking water recovers learning and memory in the adult APP/ PS1 mouse model of Alzheimer’s disease. Scientific Reports 4:7467 Koolhaas, J. M., Korte, S. M., Boer, S. F. D., Vegt, B. J. V. D., Reenen, C. G. V., Hopster, H., Jong, I. C. D., Ruis, M. A. W. & Blokhuis, H. J. 1999 Coping styles in animals: current status in behavior and stressphysiology. Neurosci. Biobehav. Rev. 23, 925–935. (doi:10.1016/S0149-7634 (99)00026-3) Li, X. W., Gao, H. Y. & Liu, J. (2016). The role of taurine in improving neural stem cells proliferation and differentiation. Nutr Neurosci. 18, 287–301. Lopez-Munoz, F. & Alamo, C. (2009). Monoaminergic neurotransmission: the history of the discovery of antidepressants from 1950s until today. Current pharmaceutical design. 15, 1563–1586. Louzada P.R., Paula Lima A.C., Mendonca-Silva D.L., Noël F., De Mello F.G., Ferreira S.T. (2004) Taurine prevents the neurotoxicity of beta-amyloid and glutamate receptor agonists: activation of GABA receptors and possible implications for Alzheimer's disease and other neurological disorders. FASEB J.,; 18(3): 511-8. Magnusson, K.R., 1996. Distributions of taurine, and glutamate receptors, during post-natal development and plasticity in the rat brain. Adv. Exp. Med. Biol. 403, 435^444. Maximino C., J. Araujo, L.K.R. Leão, A.B.A. Grisolia, K.R.M. Oliveira, M.G. Lima, E.J.O. Batista, M.E. Crespo-López, A. Gouveia Jr., A.M. Herculano, (2011). Possible role of serotoninergic system in the neurobehavioral impairment induced by acute methylmercury exposure in zebrafish (Danio rerio), Neurotoxicol. Teratol. 33 727–734. Mccabe B. J., Horn G., Kendrick K. M.. (2001) Gaba, Taurine and Learning: Release of Amino Acids From Slices of Chick Brain Following filial imprinting, Neuroscince Vol. 105 No. 2, pp. 317-324. Metcalfe, N. B. & Monaghan, P. 2003 Growth versus lifespan: perspectives from evolutionary ecology. Exp. Gerontol. 38, 935–940. (doi:10.1016/S0531-5565(03)00159-1) Mezzomo N.J., Silveira A., Giuliania G.S., Quadrosa V.A., Rosemberg D.B. (2016) The Role of taurine on anxiety-like behaviors in zebrafish: A comparative study using the novel tank and the light–dark tasks. Neuroscience Letters, 613, 19-24. O'Boyle M. (1974) Rats and mice together: The predatory nature of the rat's mouse-killing response. Psychol Bulletin.,; 81: 261-269.: Owoeye O., Adedara I. A., Farombi E.O. (2018) Pretreatment with taurine prevented brain injury and exploratory behaviour associated with administration of anticancer drug cisplatin in rats. Biomedicine & Pharmacotherapy 102 375-384. Park E.,S.Y.Park,C.Dobkin,G.Schuller-Levis , (2014).Development of a novel cysteine sulfinic acid decarboxylase knock out mouse: dietary taurine reduces neonatal mortality, J. Amino Acids 2014. Prakash N., Waghe P., Pavithra B.H., Lokesh L.V., Ramachandra S.G. (2015) Effect of λ-cyhalothrin on Redox Homeostasis and Neuropharmacological Activities in Wistar Rats. Toxicol Int.,; 22(2) Rahmeier, F. L. et al. (2016).The effect of taurine and enriched environment on behaviour, memory and hippocampus of diabetic rats. Neuroscience letters. 630, 84–92. Rajawat N.K., Soni I., Mathur R. (2015) Neurobehavioral Alterations Induced by Cyfluthrin in Male SwissAlbino Mice. Bull. Env. Pharmacol. Life Sci., 4(2): 119-127. Ramsay, S. L. & Houston, D. C. 2003 Amino acid composition of some woodland arthropods and its implications for breeding tits and other passerines. Ibis 145, 227–232. (doi:10.1046/j.1474- 919X.2003.00133.x) Sharma R, U.P. Kodavanti, L.L. Smith, H.M. Mehendale, The uptake and metabolism of cystamine and taurine by isolated perfused rat and rabbit lungs, Int. J. Biochem. Cell Biol. 27 (1995) 655e664. Sporns, O., 2010. Networks of the Brain. MIT Press, Cambridge, MA. Stewart, A., Gaikwad, S., Kyzar, E., Green, J., Roth, A., & Kalueff, A. V. (2012). Modeling anxiety using adult zebrafish: a conceptual review. Neuropharmacology, 62(1), 135–143. doi:10.1016/ j.neuropharm.2011.07.037 Sturman J.A., (1991) Dietary taurine and feline reproduction and development, Journal of Nutrition. 121. 166-170. Toyoda A., Koike H., Nishihata K., Iio W., Goto, T. (2015). Effects of chronic taurine administration on gene expression, protein translation and phosphorylation in the rat hippocampus. Advances in experimental medicine and biology. 803, 473–480. 1in 58: Trenkner, E., el Idrissi, A., Harris, C., 1996. Balanced interaction of growth factors and taurine regulate energy metabolism, neuronal survival, and function of cultured mouse cerebellar cells under depolarizing conditions. Adv. Exp. Med. Biol. 403, 507^517. Wang W., Brooks M., Gardner C., Milgram N. (2017) Effect of neuroactive nutritional supplementation on body weight and composition in growing puppies. Journal of Nutritional Science.; 6. e56. Wu G.-F., Ren S., Tang R.-Y., Xu C., Zhou J.-Q., Lin S.-M., Feng Y., Yang Q.-H., Hu J.M., Yang J.C. (2017) Antidepressant effect of taurine in chronic unpredictable mild stress-induced depressive rats, Sci. Rep. 7(1) 4989. Yeon J.A,S. J.Kim, (2010) Neuroprotective effect of taurine against oxidative stress induced damages inneuronal cells , Biomol Ther 18(1) 24–31.
Yıl 2020, Vetexpo-2019, KHVD-2019, 29 - 29, 31.03.2020

Öz

Kaynakça

  • Aerts, L. & Van Assche, F. (2005). Taurine and taurine-deficiency in the perinatal period. Journal of Perinatal Medicine, 30(4), pp. 281-286. Retrieved 5 Sep. 2019, from doi:10.1515/JPM.2002.040 Anacker, C. et al. (2013). Glucocorticoid-related molecular signaling pathways regulating hippocampal neurogenesis. Neuropsychopharmacology: official publication of the American College of Neuropsychopharmacology. 38, 872–883. Aragon C.M., Trudeau L.E., Amit Z. (1992) Effect of taurine on ethanol-induced changes in openfield locomotor activity. Psychopharmacol (Berl)., 107: 337–340 Arnold K.E., Ramsay S.L., Donaldson C., Adam A. (2007) Parental prey selection affects risk-taking behaviour and spatial learning in avian offspring. Proc. R. Soc. 274 B, 2563–2569. Bland, S. T. et al. (2007). Expression of fibroblast growth factor-2 and brain-derived neurotrophic factor mRNA in the medial prefrontal cortex and hippocampus after uncontrollable or controllable stress. Neuroscience. 144, 1219–1228. Chen C., Xia S., He J., Lu G., Xie Z., Han H., (2019) Roles of taurine in cognitive function of physiology, pathologies and toxication. Life Sciences, 231. Chen S.W., Kong W. X., Zhang Y.J., Li Y.L., Mi X.J., Mu X.S. (2004) Possible anxiolytic effects of taurine in the mouse elevated plus-maze. Science Direct, Life Sciences. 75. 1503-1511. Compere, V. et al. (2005). In vivo action of a new octadecaneuropeptide antagonist on neuropeptide Y and corticotropin-releasing hormone mRNA levels in rat. Brain research. Molecular brain research. 141, 156– 160. Chakroborty, B. et al. (2019) Taurine modulates neurobehavioral impairments in lambda cyhalothrin induced male albino rats. World Journal Of Pharmaceutical Research. 8, 3, 907-925 DiChiara G., Canba R., Spano P.F. (1971) Evidence for inhibition by brain serotonin of mouse killing behaviour in rats. Nature. (Lond.),; 233: 272-273. Elfving, B., Plougmann, P. H. & Wegener, G. (2010). Differential brain, but not serum VEGF levels in a genetic rat model of depression. Neurosci Lett. 474, 13–16. Erickson, K., Drevets, W. & Schulkin, J. (2003). Glucocorticoid regulation of diverse cognitive functions in normal and pathological emotional states. Neuroscience & Biobehavioral Reviews. 27, 233–246. International VETEXPO-2019 Veterinary Sciences Congress September 20-22 2019. Double Tree by Hilton Hotel, Avcilar /Istanbul, Turkey 93 This work is licensed under the Creative Commons Attribution 4.0 International License. Fontana, B.D., Meinerz, D.L., Rosa, L.V., Mezzomo, N.J., Silveira, A., Giuliani, G.S., Quadros, V.A., Filho, G.L., Blaser, R.E., Rosemberg, D.B., 2016. Modulatory action of taurine on ethanol-induced aggressive behavior in zebrafish. Pharmacol. Biochem. Behav. 141, 18–27. Fontana B.D., Stefanello F.V., Mezzomo N.J., Müllera T.E., Quadrosa V.A., Parkerd M.O., Ricof E.P., Rosemberg D.B. (2018) 182 Taurine modulates acute ethanol-induced social behavioral deficits and fear responses in adult zebrafish. Journal of Psychiatric Research 104 176-182. Gibbons J.L., Gordon A., Wagner B., Bridger H., Leibowitz S.F.(1978). Effects of parachlorophenylalanine and 5-hydroxytryptophan on mouse killing behavior in killer rats Pharmacol Biochem Behaviour. 9(1): 91-98. Herbert, J. et al. (2006). Do Corticosteroids Damage the Brain? Journal of Neuroendocrinology. 18, 393– 411. Huxtable, R.J., 1989. Taurine in the central nervous system and the mammalian actions of taurine. Prog. Neurobiol. 32, 471^533. Idrissi A.E. (2019). Taurine Regulation of Neuroendocrine Function. Advances in Experimental Medicine and Biology. Springer Nature Singapore Pte Ltd. 2019 977 J. Hu et al. (eds.), Taurine 11, 1155. Idrissi A.E., C.H. Shen, W.J. L’Amoreaux, (2013) Neuroprotective role of taurine during aging, Amino Acids 45 735-750. Idrissi A.E., Trenkner E. (2004) Taurine as a modulator of excitatory and inhibitory neurotransmission. Neurochem Res., 29: 189–197. Jung Y.M., Choi M.J. (2019) Relation of Taurine Intake During Pregnancy and Newborns’ Growth. Advances in Experimental Medicine and Biology. Springer Nature Singapore Pte Ltd. 283 J. Hu et al. (eds.), Taurine 11, 1155. Kalueff A.V., M. Gebhardt, A.M. Stewart, J.M. Cachat, M. Brimmer, J.S. Chawla, C. Craddock, E.J. Kyzar, A. Roth, S. Landsman, S. Gaikwad, K. Robinson, E. Baatrup, K. Tierney, A. Shamchuk, W. Norton, N. Miller, T. Nicolson, O. Braubach, C.P. Gilman, J. Pittman, D.B. Rosemberg, R. Gerlai, D. Echevarria, E. Lamb, S.C.F. Neuhauss, W. Weng, L. Bally-Cuif, H. Schneider, (2013) Towards a comprehensive catalog of zebrafish behavior 1.0 and beyond, Zebrafish 10. 70–86. Jakaria Md, Azam S., Md. Ezazul H., Jo S., Md. Sahab Uddin ,In-Su Kim, Choi D.K. (2019) Taurine and its analogs in neurological disorders: Focus on therapeutic potential and molecular mechanisms. Redox Biology, 24, 101223 Jia, N., Sun, Q., Su, Q., Dang, S., Chen, G., 2016. Taurine promotes cognitive function in prenatally stressed juvenile rats via activating the Akt-CREB-PGC1alpha pathway. Redox Biol. 10, 179–190. Karan S. (1991) Taurine in Infant Nutrition. Indian Journal of Pediatrics, 58 : 311-316 Knopf K., Sturman J. A., Armstrong M., Hayes K.C. (1978) Taurine: An Essential Nutrient for the Cat. The Journal of Nutrition, Volume 108, 773–778. Kim H.Y. , Kim. H.V., Yoon J.H., Kang B.R., Cho S.M. , Lee S., Kim J.Y., Kim J.V., Cho Y., Woo J., Kim Y.S. (2014) Taurine in drinking water recovers learning and memory in the adult APP/ PS1 mouse model of Alzheimer’s disease. Scientific Reports 4:7467 Koolhaas, J. M., Korte, S. M., Boer, S. F. D., Vegt, B. J. V. D., Reenen, C. G. V., Hopster, H., Jong, I. C. D., Ruis, M. A. W. & Blokhuis, H. J. 1999 Coping styles in animals: current status in behavior and stressphysiology. Neurosci. Biobehav. Rev. 23, 925–935. (doi:10.1016/S0149-7634 (99)00026-3) Li, X. W., Gao, H. Y. & Liu, J. (2016). The role of taurine in improving neural stem cells proliferation and differentiation. Nutr Neurosci. 18, 287–301. Lopez-Munoz, F. & Alamo, C. (2009). Monoaminergic neurotransmission: the history of the discovery of antidepressants from 1950s until today. Current pharmaceutical design. 15, 1563–1586. Louzada P.R., Paula Lima A.C., Mendonca-Silva D.L., Noël F., De Mello F.G., Ferreira S.T. (2004) Taurine prevents the neurotoxicity of beta-amyloid and glutamate receptor agonists: activation of GABA receptors and possible implications for Alzheimer's disease and other neurological disorders. FASEB J.,; 18(3): 511-8. Magnusson, K.R., 1996. Distributions of taurine, and glutamate receptors, during post-natal development and plasticity in the rat brain. Adv. Exp. Med. Biol. 403, 435^444. Maximino C., J. Araujo, L.K.R. Leão, A.B.A. Grisolia, K.R.M. Oliveira, M.G. Lima, E.J.O. Batista, M.E. Crespo-López, A. Gouveia Jr., A.M. Herculano, (2011). Possible role of serotoninergic system in the neurobehavioral impairment induced by acute methylmercury exposure in zebrafish (Danio rerio), Neurotoxicol. Teratol. 33 727–734. Mccabe B. J., Horn G., Kendrick K. M.. (2001) Gaba, Taurine and Learning: Release of Amino Acids From Slices of Chick Brain Following filial imprinting, Neuroscince Vol. 105 No. 2, pp. 317-324. Metcalfe, N. B. & Monaghan, P. 2003 Growth versus lifespan: perspectives from evolutionary ecology. Exp. Gerontol. 38, 935–940. (doi:10.1016/S0531-5565(03)00159-1) Mezzomo N.J., Silveira A., Giuliania G.S., Quadrosa V.A., Rosemberg D.B. (2016) The Role of taurine on anxiety-like behaviors in zebrafish: A comparative study using the novel tank and the light–dark tasks. Neuroscience Letters, 613, 19-24. O'Boyle M. (1974) Rats and mice together: The predatory nature of the rat's mouse-killing response. Psychol Bulletin.,; 81: 261-269.: Owoeye O., Adedara I. A., Farombi E.O. (2018) Pretreatment with taurine prevented brain injury and exploratory behaviour associated with administration of anticancer drug cisplatin in rats. Biomedicine & Pharmacotherapy 102 375-384. Park E.,S.Y.Park,C.Dobkin,G.Schuller-Levis , (2014).Development of a novel cysteine sulfinic acid decarboxylase knock out mouse: dietary taurine reduces neonatal mortality, J. Amino Acids 2014. Prakash N., Waghe P., Pavithra B.H., Lokesh L.V., Ramachandra S.G. (2015) Effect of λ-cyhalothrin on Redox Homeostasis and Neuropharmacological Activities in Wistar Rats. Toxicol Int.,; 22(2) Rahmeier, F. L. et al. (2016).The effect of taurine and enriched environment on behaviour, memory and hippocampus of diabetic rats. Neuroscience letters. 630, 84–92. Rajawat N.K., Soni I., Mathur R. (2015) Neurobehavioral Alterations Induced by Cyfluthrin in Male SwissAlbino Mice. Bull. Env. Pharmacol. Life Sci., 4(2): 119-127. Ramsay, S. L. & Houston, D. C. 2003 Amino acid composition of some woodland arthropods and its implications for breeding tits and other passerines. Ibis 145, 227–232. (doi:10.1046/j.1474- 919X.2003.00133.x) Sharma R, U.P. Kodavanti, L.L. Smith, H.M. Mehendale, The uptake and metabolism of cystamine and taurine by isolated perfused rat and rabbit lungs, Int. J. Biochem. Cell Biol. 27 (1995) 655e664. Sporns, O., 2010. Networks of the Brain. MIT Press, Cambridge, MA. Stewart, A., Gaikwad, S., Kyzar, E., Green, J., Roth, A., & Kalueff, A. V. (2012). Modeling anxiety using adult zebrafish: a conceptual review. Neuropharmacology, 62(1), 135–143. doi:10.1016/ j.neuropharm.2011.07.037 Sturman J.A., (1991) Dietary taurine and feline reproduction and development, Journal of Nutrition. 121. 166-170. Toyoda A., Koike H., Nishihata K., Iio W., Goto, T. (2015). Effects of chronic taurine administration on gene expression, protein translation and phosphorylation in the rat hippocampus. Advances in experimental medicine and biology. 803, 473–480. 1in 58: Trenkner, E., el Idrissi, A., Harris, C., 1996. Balanced interaction of growth factors and taurine regulate energy metabolism, neuronal survival, and function of cultured mouse cerebellar cells under depolarizing conditions. Adv. Exp. Med. Biol. 403, 507^517. Wang W., Brooks M., Gardner C., Milgram N. (2017) Effect of neuroactive nutritional supplementation on body weight and composition in growing puppies. Journal of Nutritional Science.; 6. e56. Wu G.-F., Ren S., Tang R.-Y., Xu C., Zhou J.-Q., Lin S.-M., Feng Y., Yang Q.-H., Hu J.M., Yang J.C. (2017) Antidepressant effect of taurine in chronic unpredictable mild stress-induced depressive rats, Sci. Rep. 7(1) 4989. Yeon J.A,S. J.Kim, (2010) Neuroprotective effect of taurine against oxidative stress induced damages inneuronal cells , Biomol Ther 18(1) 24–31.
Toplam 1 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Veteriner Cerrahi
Bölüm Derleme Makaleler
Yazarlar

Ezgi Ergen Bu kişi benim

İbrahim Akyazı 0000-0002-8808-8216

Yayımlanma Tarihi 31 Mart 2020
Yayımlandığı Sayı Yıl 2020 Vetexpo-2019, KHVD-2019

Kaynak Göster

APA Ergen, E., & Akyazı, İ. (2020). The effect of taurine on animal behavior. Journal of Istanbul Veterinary Sciences29-29.

Bu dergi Creative Commons attribution 4.0 international  (CC-BY 4.0). lisansı ile lisanslanmıştır.