Основы сенсорной физиологии - Тамар Г.
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Торможение 836
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67. Crescitelli F., Delayed off-responses recorded from the isolated frog retina, Vision Res., 8, 801—816 (1968).
68. Creutzfeldt O. D., Functional Synaptic Organization in the Lateral Geniculate Body and Its Implication for Information Transmission, in: von Euler C., Skoglund S., Soderberg U., (eds.): Structure and Function of Inhibitory Neuronal Mechanisms. Proceed. Fourth Int. Meet. Neurobiologists, 1966. New York, Pergamon, pp. 117—122, 1968.
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72. Darian-Smiih /., Neural mechanisms of facial sensation, Int. Rev. Neuro-biol., 9, 301—395 (1966).
73. David E., Finkenzeller P., Kallert S., Keidel W. D., Die Bedeutung der . temporalen Hemmung im Bereich der akustischen Informationsverarbei-tung, Pflflgers Arch., 298, 322—335 (1967).
74. Daw N. W„ Colour-coded ganglion cells in the goldfish retina, Extension of their receptive fields by means of new stimuli, J. Physiol. (London),
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75. Dennis В. J., Kerr D. I. B., An evoked potential study of centripetal and centrifugal connections of the olfactory bulb in the cat. Brain Res., 11, 373—396 (1968).
76. Desmedt J. ?., Neurophysiological Mechanisms Controlling Acoustic Input, in: Rasmussen G. L., Windle W. F. (eds.): Neural Mechanisms of the Auditory and Vestibular Systems. Springfield, Charles C. Thomas, Chapter 11, 1960.
77. Desmedt J. E., Auditory-evoked potentials from cochlea to cortex as influenced by activation of the efferent olivocochlear bundle, J. Acoust. Soc. Amer., 34, 1478—1496 (1962).
78. Desmedt J. E., Delwaide P. /., functional properties of the efferent cochlear bundle of the pigeon revealed by stereotaxic stimulation, Exp. Neurol.,
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79. Desmedt J. E., La Grutta V., Function of the uncrossed efferent olivo-coch-lear fibres in the cat, Nature, 200, 472—474 (1963).
80. Desmedt J. E., Monaco P., Mode of action of the efferent olivo-cochlear bundle on the inner ear, Nature, 192, 1263—1265 (1961).
81. Desmedt J. E., Monaco P., The pharmacology of a centrifugal inhibitory
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82. Dethler V. G., Gelperin A., Hyperphagia in the blowfly, J. Exp. Biol., 47, 191—200 (1967).
83. Dethier V. G., Solomon R. L., Turner L. H., Sensory input and central
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84. Dewson III, J. H„ Efferent olivocochlear bundle: Some relationships to noise masking and to stimulus attenuation, J. Neurophysiol., 30, 817—832
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Гтва IV
86. Dill R. С., Vallecalle E., Verzeano M, Evoked potentials, neuronal activity and stimulus intensity in the visual system, Physiol. Behav., 3, 797— 801 (1968).
87. Dodge Jr., F. A., Knight B. W., Toyoda J., In preparation.
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89. Doving К В., Studies of the relation between the frog’s electro-olfacto-gram (EOG) and single unit activity in the olfactory bulb, Acta Physiol. Scand., 60, 150—163 (1964).
90. Doving К. B., Efferent influence upon the activity o! single neurons in the olfactory bulb of the burbot. J. Neurophysiol., 29, 675—683 (1966).
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92. Doving К. B., Gemne G., An electrophysiological study of the efferent olfactory system in the burbot, J. Neurophysiol., 29, 665—674 (1966).
93. Doving К. B., Hyvarinen J., Afferent and efferent influences on the activity pattern of single olfactory neurons. Acta Physiol. Scand., 75, 111—123 (1969).
94. Dowling J. E., The site of visual adaptation, Science, 155, 273—279 (1967).
95. Dowling J. E., Boycott В. B., Neural connections of the retina: Fine structure of the inner pletfiform layer. In Sensory Receptors. Cold Spring Harbor Symposia on Quantitative Biology, 30, 393—402 (1965).
