Visualizar Tese - Instituto de Biociências - Unesp
Visualizar Tese - Instituto de Biociências - Unesp Visualizar Tese - Instituto de Biociências - Unesp
Andreo Fernando Aguiar29. Chin ER. The role of calcium and calcium/calmodulin-dependent kinases inskeletal muscle plasticity and mitochondrial biogenesis. Proc Nutr Soc 63: 279-286, 2004.30. Chin ER. Role of Ca2_/calmodulin-dependent kinases in skeletal muscle plasticity.J Appl Physiol 99: 414-423, 2005.31. Cornelison DD, Olwin BB, Rudnicki MA, and Wold BJ. MyoD(-/-) satellitecells in single-fiber culture are differentiation defective and MRF4 deficient. DevBiol 224: 122-137, 2000.32. Costill DL, Daniels J, Evans W, Fink W, Krahenbuhl G, and Saltin B. Skeletalmuscle enzymes and fiber composition in male and female track athletes. J ApplPhysiol 40: 149-154, 1976.33. D’albis A, GoubeL F, Couteaux R, Janmot C, and Mira JC. The effect ofdenervation on myosin isoform synthesis in rabbit slow-type and fast-type musclesduring terminal differentiation. Denervation induces differentiation into slow-typemuscles. Eur J Biochem 223: 249-258, 1994.34. Davis RL, Cheng PF, Lassar AB, and Weintraub H. The MyoD DNA bindingdomain contains a recognition code for muscle-specific gene activation. Cell 60:733–746, 1990.35. Deasy BM, Jankowski RJ, and Huard J. Muscle-derived stem cells:characterization and potential for cell-mediated therapy. Blood Cells Mol Dis 27:924-933, 2001.36. Demirel HA, Powers SK, Naito H, Hughes M, and Coombes JS. Exerciseinducedalterations in skeletal muscle myosin heavy chain phenotype: doseresponserelationship. J Appl Physiol 86: 1002-1008, 1999.37. Dolmetsch RE, Xu K, and Lewis RS. Calcium oscillations increase the efficiencyand specificity of gene expression. Nature 392: 933-936, 199738. Dupont-Versteegden EE, Knox M, Gurley CM, Houle JD, and Peterson CA.Maintenance of muscle mass is not dependent on the calcineurin–NFAT pathway.Am J Physiol Cell Physiol 282: 1387-1395, 2002.39. Elliott A and Offer G. Shape and flexibility of the myosin molecule. J Mol Biol123: 505-519, 1978.30
Andreo Fernando Aguiar40. Ennion S, Sant’ana Pereira J, Sargeant AJ, Young A, and Goldspink G.Characterization of human skeletal muscle fibres according to the myosin heavychains they express. J Muscle Res Cell Motil 16: 35-43, 1995.41. Fitzsimons DP, Diffee GM, Herrick RE, and Baldwin KM. Effects of enduranceexercise on isomyosin patterns in fast- and slow-twitch skeletal muscles. J ApplPhysiol 68: 1950-1955. 199042. Fluck M and Hoppeler H. Molecular basis of skeletal muscle plasticity-from geneto form and function. Rev Physiol Biochem Pharmacol 146: 159-216, 2003.43. Frontera WR, Hughes VR, Lutz KJ, and Evans WJ. A cross-sectional study ofmuscle strength and mass in 45- to 75-yr-old men and women. J Appl Physiol 71:644-650, 1991.44. Fry AC, Allemeier CA, and Staron RS. Correlation between percentage fibertype area and myosin heavy chain content in human skeletal muscle. Eur J ApplPhysiol Occup Physiol 68: 246-251, 1994.45. Galler S, Schmitt TL, and Pette D. Stretch activation, unloaded shorteningvelocity, and myosin heavy chain isoforms of rat skeletal muscle fibres. J Physiol478: 513-521, 1994.46. Gibson MC and Schultz E. The distribution of satellite cells and their relationshipto specific fiber types in soleus and extensor digitorum longus muscles. Anat Rec202: 329-337, 1982.47. Glass DL. Molecular mechanisms modulating muscle mass. Trend Mol med 9:344-350, 2003.48. Goldspink G. Mechanical signals, IGF-I gene splicing, and muscle adaptation.Physiology 20: 232-238, 2005.49. Goy JJ, Stauffer JC, Deruaz JP, Gillard D, Kaufmann U, Kuntzer T, andKappenberger L. Myopathy as possible side-effect of cyclosporine. Lancet 24:1446-1447. 198950. Green H, Goreham C, Ouyang J, Ball-Burnett M, and Ranney D. Regulation offiber size, oxidative potential, and capillarization in human muscle by resistanceexercise. Am J Physiol 276: 591-596. , 1999.31
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Andreo Fernando Aguiar40. Ennion S, Sant’ana Pereira J, Sargeant AJ, Young A, and Goldspink G.Characterization of human skeletal muscle fibres according to the myosin heavychains they express. J Muscle Res Cell Motil 16: 35-43, 1995.41. Fitzsimons DP, Diffee GM, Herrick RE, and Baldwin KM. Effects of enduranceexercise on isomyosin patterns in fast- and slow-twitch skeletal muscles. J ApplPhysiol 68: 1950-1955. 199042. Fluck M and Hoppeler H. Molecular basis of skeletal muscle plasticity-from geneto form and function. Rev Physiol Biochem Pharmacol 146: 159-216, 2003.43. Frontera WR, Hughes VR, Lutz KJ, and Evans WJ. A cross-sectional study ofmuscle strength and mass in 45- to 75-yr-old men and women. J Appl Physiol 71:644-650, 1991.44. Fry AC, Allemeier CA, and Staron RS. Correlation between percentage fibertype area and myosin heavy chain content in human skeletal muscle. Eur J ApplPhysiol Occup Physiol 68: 246-251, 1994.45. Galler S, Schmitt TL, and Pette D. Stretch activation, unloa<strong>de</strong>d shorteningvelocity, and myosin heavy chain isoforms of rat skeletal muscle fibres. J Physiol478: 513-521, 1994.46. Gibson MC and Schultz E. The distribution of satellite cells and their relationshipto specific fiber types in soleus and extensor digitorum longus muscles. Anat Rec202: 329-337, 1982.47. Glass DL. Molecular mechanisms modulating muscle mass. Trend Mol med 9:344-350, 2003.48. Goldspink G. Mechanical signals, IGF-I gene splicing, and muscle adaptation.Physiology 20: 232-238, 2005.49. Goy JJ, Stauffer JC, Deruaz JP, Gillard D, Kaufmann U, Kuntzer T, andKappenberger L. Myopathy as possible si<strong>de</strong>-effect of cyclosporine. Lancet 24:1446-1447. 198950. Green H, Goreham C, Ouyang J, Ball-Burnett M, and Ranney D. Regulation offiber size, oxidative potential, and capillarization in human muscle by resistanceexercise. Am J Physiol 276: 591-596. , 1999.31