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42. Harris, E. J. and G. P. Burns. Transfer of sodium and potassium ions between muscle 

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43. Hill, A. V. The abrupt transition from rest to activity. Proc. Roy. Soc. London, s. B 

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44. Hill, A. V. Effect of series compliance on the tension developed in a muscle twitch. 

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45. Hill, A. V. and L. MacPherson. Effect of niti-ate, iodide, and bromide on the duration 

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46. Hill, D. K. Changes in transparency of muscle during a twitch. J. PhysioL 108: 292-302, 

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47. Hill, D. K. Effect of stimulation on the diffraction of light by striated muscle. J. PhysioL 

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48. Hodge, A. J. Studies on the structure of muscle. HI. Phase contrast and electron micros- 

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49. Hodge, A. J., H. E. Huxley and D. Spiro. Electronmicroscope studies on ultrathin 

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50. HoDGKiN, A. L. The ionic basis of electrical activity in nerve and muscle. Biol. Rev. 26: 



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51. HoDGKiN, A. L. AND A. F. HuxLEY. Currents carried by sodium and potassium ions 

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52. HoDGKiN, A. L. .AND R. D. Keynes. Movements of cations during recovery in nerve. 

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53. Huxley, A. F. and R. E. Taylor. Activation of a single sarcomere. J. Physiol. 130: 



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54. Huxley, A. F. and R. E. Taylor. P'unction of Krause's membrane. Nature 176: 1068, 



1955- 



55. Jenden, I). J., J. J. Blum and C. E. Knight, .\ction of ryanodine on skeletal muscle. 

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56. Kahn, a. J. AND A. Sandow. Effects of anions on the mechanical responses of skeletal 

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57. Kahn, A. J. and A. Sandow. Effects of bromide, nitrate, and iodide on responses of 

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58. Keynes, R. D. The ionic movements during nervous activity. J. Physiol. 114: iig-150, 



1951- 



59. Keynes, R. D. The ionic fluxes in frog muscle. Proc. Roy. Soc. London, s. B 142: 359-382, 



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60. Kuffler, S. W. Specific excitability of the end plate region in normal and denervated 

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61. Kuffler, S. W. The relation of electric ]K)lential changes to contracture in skeletal 

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62. Kuffler, S. W. and E. M. Vaughan. Properties of the 'slow' skeletal muscle fibres of 

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63. Laki, K. Unpublished observations. 



64. Ling, G. Muscle electrolytes. Am. J. Phys. Med. 34: 89-101, 1955. 



65. Ling, G. and R. W. Gerard. The normal membrane potential of frog sartorius fibers. 

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66. Lorand, L. Adenosinetriphosphate-creatine transphosphorylase— a relaxing factor of 

 muscle. Nature 172: 1181-3, 1953. 



