trabalho bioquímica
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BioquímicaTRANSCRIPT
Referências bibliográficas:
Site: http://www.diaadiaeducacao.pr.gov.br
Fontes que este site utilizou para esse conteúdo:[1] A. Marzzoco, B.B. Torres (1999) Bioquímica Básica. 2nd ed., Guanabara-Koogan,Rio de Janeiro. [2] D. Voet, J.G. Voet, C.W. Pratt (2002) Fundamentos de Bioquímica. Artmed, PortoAlegre.[3] P.R. Evans (1991) Structural aspects of allostery. Curr. Opin. Struct. Biol. 1,773-779.[4] G.G. Hammes (2002) Multiple conformational changes in enzyme catalysis.Biochemistry. 41(26),8221-8228.[5] D. Barford (1991) Molecular mechanisms for the control of enzymic activity byprotein phosphorylation. Biochim. Byophys. Acta. 1133,55-62.[6] E. Hafen (1998) Kinases and phophatases - a marriage consummated. Science.22,280(5367):1258-1266.[7] W.A. Lim (2002) The modular logic of signaling proteins: building allostericswitches from simple binding domains. Curr. Opin. Structur. Biol. 12,61-68.[8] B.E. Kemp, K.I. Mitchelhill, D. Stapleton et al. (1999) Dealing with energydemand: the AMP-activated protein kinase. Tibs. 24,22-25.[9] S.C. Stein, A. Woods, N.A. Jones et al. (2000). The regulation of AMP-activatedprotein kinase by phosphorylation. Biochem J. 345,437-443. [10] D.G. Hardie, J.W. Scott, D.A. Pan et al. (2003) Management of cellular energy bythe AMP-activated protein kinase system. Febs Letters. 546,113-120.[11] D.G. Hardie, S.A. Hawley (2001) AMP-activated protein kinase: the energycharge hypothesis revisited. BioEssays. 23,1112-1119.[12] D.L. Nelson, M.M. Cox (2005) Lehninger Principles of Biochemistry. 4th ed.,Freeman and Company, New York.[13] T.S. Ingebritsen, P. Cohen (1983) Protein phosphatases: properties and role incellular regulation. Science. 22,221(4608):331-338.[14] R.M. Hanley, A.L. Steiner (1989) The second-messenger system for peptidehormones. Hosp. Pract. 15,24(8)59-70.[15] P.B. Daniel, W.H. Walker, J.F. Habener (1998) Cyclic AMP signaling and generegulation. Ann. Rev. Nutr. 18,353-383.[16] K.V. Chin, W.L Yang, R. Ravatn et al. (2002) Reinventing the wheel of cyclicAMP; novel mechanisms of cAMP signaling. Am. N. Y. Acad. Sci. 968,49-64.[17] S.D. Yang, L.T. Ho, T.J. Fung et al. (1989) Insulin induces activation of Kinase Fain membranes and thereby promotes activation of ATP.Mg-dependent phosphatase inadipocytes. Biohem. Biophys. Res. Comm. 158,762-768. [18] O.D. Taunton, F.B. Stifel, H.L. Green et al. (1974) Rapid reciprocal changes in rathepatic glycolytic enzyme and fructose diphosphatase activities. J. Biol. Chem.249,7228-7239.[19] K.D. Tipton, R.R. Wolfe (2001) Exercise, protein metabolism, and muscle growth.Int. J. Sport. Nutr. Exerc. Metab. 11(1),109-132. [20] J. Williams, S. Mobarhan (2003) A critical interaction: leptin and ghrelin. Nutr.Rev. 61(11),391-393.[21] R.K. Murray, D.K. Granner, P.A. Mayes et al. (2002) Harper: Bioquímica. 9th ed.Atheneu, São Paulo.[22] M.F. Browner, R.J. Fletterick (1992) Phosphorylase: a biological transducer. Tibs17,66-71.[23] L. Stryer (1992) Bioquímica. 3rd ed., Guanabara-Koogan, Rio de Janeiro.
Site: http://www.fisio.icb.usp.brFontes que este site utilizou ara este conteúdo:AIRES, M.M. Fisiologia. 3ª edição. Rio de Janeiro: Guanabara Koogan, 2008.BERNE R.M.; LEVY M.N.; KOEPPEN BM; STANTON BA. Fisiologia. 5ª edição. Elsiever, 2004.SILVERTHORN, D.U. Fisiologia Humana: Uma abordagem integrada. 2ª edição. Manole, 2003.Site: http://www.bibliomed.com.br
Fontes que este site utilizou para este conteúdo:1. ALBRIGHTSON, C.R.; BAENZIGER, N.L. & NEEDLEMAN, P. Exaggerated human vascular cell prostaglandin biosynthesis mediated by monocytes. Role of monokines and interleukin-1. J. Immunol., 135:1.872-7, 1985.
2. ASKANAZI, J.; CARPENTIER, Y.A; ELWYN, D.H. et al. Influence of total parenteral nutricion on fuel utilization in injury and infection. Ann. Surg., 191:40-6, 1980.
3. BARACOS, V.; RODEMANN, H.P.; DINARELLO, C.A. et al. Stimulation of muscle protein degradation and prostaglandin E2 release by leucocytic pirogen (interleukin-1). A mecanism for the increased degradation of muscle proteins during fever. N. Engl. J. Med., 308:553-8, 1983.
4. BARTON, R.N. & PASSINGHAM, B.J. Effect of binding to plasma proteins on the interpretation of plasma cortisol concentrations after accidental injury. Clin. Sci., 61:399-405, 1981.
5. BESSEY, P.Q. Parenteral nutrition and trauma. In: ROMBEAU, J.L. & CALDWELL M.D. Parenteral Nutrition. Philadelphia, WB Saunders, 1986, pp. 471-88.
6. BEVILACQUA, M.P,; POBER, J.S.; WHEELER, M.E. et al. Interleukin-I acts on cultured human vascular endothelial cells to increase the adhesion of polymorphonuclear leukocytes, monocytes and related leukocytes cell lines. J. Clin. Invest., 76:2.003-12, 1985.
7. BIESEL, W.R. Metabolic response to infection. In: KINNEY J.M.; JEEJEEBHOY K. N.; HILL J. L. & OWEN O.E. Nutrition and Metabolism in Patient Care. Philadelphia, WB Saunders, 1988. pp 605-24.
8. BIESEL, W.R. & WANNEMACHER Jr., R.W. Gluconeogenesis, ureagenesis and ketogenesis during sepsis. JPEN, 4:277-85, 1980.
9. BIRKHAN, R.H.; LONG, C.L.; FITKIN, D.L. et al. Effects of major skeletal trauma on whole body protein turnover in man measured by L-[14 Cl-leucine. Surgery, 88:294-9, 1980.
10. BIRKHAN, R.H.; LONG, C.L.; FITKIN, D.L. et al. A comparison of the effects of skeletal trauma and surgery on the ketosis of starvation in man. J. Trauma, 21:513-9, 1981.
11. BLACK, P.R.; BROOKS, D.C.; BESSEYt P.Q. et al. Mecanisms of insulin resistence following injury. Ann. Surg., 196:420-9, 1982.
12. BLEUTER, B. & CERAMI, A. Cachectin: more than a tumor necrosis factor. N. Engl. J. Med.,316:379-85, 1987.
13. CAHILL Jr., G.F. Starvation in man. N. Engl. J. Med., 282:668, 1970.
14. CAHILL Jr., G.F. Starvation: some biological aspects. In: KINNEY, J.M.; JEEBHOY, K.N.; HILL, G.L. & OWEN, O.E. Nutrition and Metabolism in Patient Care.
Philadelphia, WB Saunders, 1988. pp, 193-204.
15. CARVALHO, E.B. & LEITE, J.I.A. Estado nutricional. In: LÓPEZ, M. & MEDEIROS, J. L. Semiologia Médica. 3 ed., Rio de Janeiro, Atheneu, 1990. pp. 87-108.
16. CERRA, F.B. Hipermetabolism, organ failure, and metabolic support. Surgery, 101:1-14, 1987.
17. CERRA, F.B.; HOLMAN, R.T.; BANKEY, P.E. et al. Nutritional pharmacology: It,s role in the hypermetabolism-organ failure syndrome. Crit. Care Med., 18:SI54-8, 1990.
18. CLOWES, G.H.A.; GEORGE, B.C., VILLEE, C.A. et al. Muscle proteolysis induced by a circulating peptide in patients with sepsis or trauma. N. Engl. J. Med., 308:545-52, 1983.
19. CONTI, P.; CIFONE, M.G. & ALESSE, E. "In vitro" enhanced thromboxane B2 release by poly morphonuclear leukocytes and macrophages after treatment with human recombinant interleukin-1. Prostaglandins, 32:111-5, 1986.
20. DAVIES, C.L.; NEWMAN, R.J.; MOLYNEUX, S.G. et al. The relationship between plasma catecolamines and severity of injury in man. J. Trauma, 24:99-105, 1984.
Pesquisa realizada em 29/09/2011.
REGULAÇÃO
INTEGRADA DO METABOLISMO
UNISO 2011
Grupo:
Angelita Brandi de Oliveira
Bianca Oliveira de Moraes
Ricardo dos Santos Barreiro
Componente curricular: Bioquímica
Profª: Camila arakaki