1[1]Bokdawala FD, George JC. Histochemical observations on creatine phosphokinase activity in the red and white fibres of normal and denervated pigeon breast muscle[J]. J Neurol Sci, 1969, 9(3): 443.
2[2]Tagerud S, Libelius R. Lysosomes in skeletal muscle following denervation. Time course of horseradish peroridase uptake and increase of lysosomal enzymes[J]. Cell Tissue Res, 1984, 236(1): 73.
3[3]Libelius R, Lundquist I, Tagerud S. Endocytosis and lysosomal enzyme activities in dystrophic muscle: the effect of denervation[J]. Acta Physiol Scand, 1981, 113(2): 259.
4[4] Furuno K, Goodman MN, Goldberg AL. Role of different proteolytic systems in the degradation of muscle proteins during denervation atrophy[J]. J Biological Chemistry, 1990, 265(15): 8550.
5[5]Tischler ME, Kirby C, Rosenberg S, et al. Mechanisms of acelerated proteolysis in rat soleus muscle atrophy induced by unweighting or denervation[J]. The Physiologist, 1991, 34(1Supp1):177.
6[6]Lee YB, Ashmoore CR, Hitchcock L. Effects of stretch and denervation on protease activities of normal and dystrophic chicken muscle[J]. Experimental Neurology, 1984, 84(2):420.
7[7]Medina R, Wing SS, Golabery AL. Increase in levels of polyubiguitin and proteasome mRNA in skeletal muscle during starvation and denervation atrophy[J]. Biochem J, 1995, 307: 631.
8[8]Nemeth PM, Meyer D, Kark PA, et al. Effects of denervation and simple disuse on rates of oxidation and on activities of four mitochondrial enzymes in type I muscle[J]. J Neurochem, 1980, 35(6): 1351.
9[9]Jakubiec Puka A. Changes in myosin and actin filaments in fast skeletal muscle after denervation and self-reinnervation[J]. Comp Biochem Physiol, 1992, 102(1): 93.
10[10]Jakubiec Puka A, Kulesza Lipka D, Krajewski K, et al. The contractile apparatus of striated muscle in the course of atrophy and regeneration[J]. Cell Tissue Res, 1981, 220(3): 651.
