References
D. Adams, V. I. Badikov, V. M. Smirnov, and K. V. Sudakov, “The experimental reproduction of a duplicate pacemaker center of alimentary motivation,”Byul. Éksperim. Biologii i Meditsiny, 96, No. 11, 515–517 (1978).
P. K. Anokhin and K. V. Sudakov, “The neurophysiological theory of hunger, appetite and satiety,”Uspekhi Fiziol. Nauk, 2, No. 1, 3–71 (1971).
N. P. Bekhtereva,Neurophysiological Aspects of Mental Activity of the Brain [in Russian], Leningrad (1971).
R. A. Burchuladze, R. M. Salieva, S. G. Kosheleva, and Yu. N. Samko, “Self-stimulation against the background of the action of blockers of the synthesis of protein and oligopeptides,”Byul. Éksperim. Biologii i Meditsiny, 105, No. 4, 381–389 (1988).
B. V. Zhuravlev, “The neurophysiological mechanisms of alimentary satiation,” in:The Systemic Mechanisms of Motivations [in Russian], K. V. Sudakov (ed.), Moscow (1979), pp. 138–190.
V. B. Zhuravlev, “A systemic analysis of the activity of brain neurons during the food-procuring behavior of animals,” in:Neurons in Behavior: Systemic Aspects [in Russian], Moscow (1986), pp. 170–179.
V. G. Zilov, “The integrative properties of dominant motivation at the stage of afferent synthesis,”Vestn. AMN SSSR, No. 2, 93–96 (1985).
L. F. Kelegieva, A. V. Kotov, and K. V. Sudakov, “Predilection for alcohol: the role of oligopeptides in central mechanisms,”Zhurn. Mikrobiologii, Épidemiologii i Immunologii, No. 3, 101–108 (1989).
D. V. Kolesov,The Evolution of the Mind and the Nature of Drug Addiction [in Russian], Moscow (1991).
M. Kol'dits and A. N. Kravtsov, “The sensitivity of neurons of the parafascicular complex of the rabbit thalamus to angiotensin II during stimulation of the ventromedial hypothalamus,Byul. Éksperim. Biologii i Meditsiny, 89, 50–55 (1984).
E. V. Koplik, “The features of the spread of excitation from the ventromedial hypothalamus to the limbic-reticular structures of the brain,”Byul. Éksperim. Biologii i Meditsiny, 85, No. 4, 390–392 (1978).
A. V. Kotov,The Interaction of Alimentary Motivational and Reinforcing Excitations on Neurons of the Cerebral Cortex [in Russian], Moscow (1973).
G. N. Kryzhanovskii, A. V. Kotov, O. A. Kulygina, et al., “An experiment in the modeling of neuropathological syndromes due the creation of generators of pathologically intensified excitation in the hypothalamus in rabbits,”Byul. Éksperim. Biologii i Meditsiny, No. 10, 406–408 (1977).
A. I. Lakomkin and I. F. Myagkov, Hunger and Thirst [in Russian], Moscow (1975).
A. V. Lisitskii, The Role of Alimentary Motivational Excitation in the Convergent Properties of Neurons of the Sensorimotor Cerebral Cortex [in Russian], Moscow (1976).
A. F. Meshcheryakov and A. V. Kotov, “The participation of angiotensin II and acetylcholine in the central mechanisms of alcohol motivation in rats,” Fiziol. Zhurn. SSSR, 71, No. 12, 1546–1551 (1985).
A. A. Panfilov and T. N. Loseva, “An electrophysiological analysis of the activation of the cerebral cortex during prolonged hunger,” Fiziol. Zhurn. SSSR, 52, No. 5, 447–452 (1966).
B. J. Rolls and E. T. Rolls, Thirst [Russian translation], Moscow (1984).
P. G. Snyakin, “The functional mobility of receptors,” Uspekhi Fiziol. Nauk, 2 No. 3, 32–57 (1971).
Yu. N. Samko, “The protein synthesis blocker 8-azaguanine and the oligopeptides in the realization of the nociceptive reaction of flight behavior in rats,” in: Experimental and Applied Physiology, Vol. 2 [in Russian], K. V. Sudakov (ed.), Moscow (1993).
K. V. Sudakov, Biological Motivations [in Russian], Moscow (1971).
K. V. Sudakov, “The pacemaker role of the hypothalamus in the formation of normal and pathological alimentary motivations,” Fiziol. Zhurn., 24, No. 5, 589–601 (1978).
K. V. Sudakov, “The oligopeptides in the formation of biological motivations,” Zhurn. Vyssh.Nerv. Deyat., 37, 1, 78–87 (1987).
K. V. Sudakov, “Holographic homologies of biological motivation in the systemic organization of behavioral acts,” Zhurn. Vyssh. Nerv. Deyat., 38, No. 1, 10–20 (1988).
K. V. Sudakov, “Biological motivations as the basis for the formation of alcohol motivation and narcotic dependance,” Vopr. Narkologii, No. 3, 3–14 (1990).
K. V. Sudakov, The Physiology of Motivations [in Russian], Moscow (1960).
K. V. Sudakov, “The systemic functions of the brain under the conditions of the action of blockers of the synthesis of protein and oligopeptides,” Vestn. AMN SSSR, 7, 40–47 (1992).
S. K. Sudakov, “The molecular mechanisms of memory in the systemic organization of behavioral acts,” in: Functional Systems of the Organism [in Russian], Moscow (1987), pp. 166–178.
K. V. Sudakov, L. A. Nedel'kina, and N. A. Salukvadze, “The mechanisms of the spread of ascending activating influences of the alimentary center of the lateral hypothalamus to the cerebral cortex,” Fiziol. Zhurn. SSSR, 57, No. 8, 1099–1106 (1971).
K. V. Sudakov, A. V. Kotov, L. F. Kelesheva, et al., “The neurophysiological bases of the formation of alcohol motivation in the experimental situation,” Vopr. Narkologii, No. 3, 7–14 (1988).
V. G. Tevzade, “Reactions induced by direct stimulation of the cingulate gyrus (g. cinguli) and their influence on some reflexes,” Soobshch. AN GSSR, 43 No. 2, 485–494 (1966).
Yu. A. Fadeev, Neurons of the Cerebral Cortex in the Systemic Organization of Behavior [in Russian], Moscow (1988).
S. N. Khayutin, “Characteristics of the activity of single neurons of the visual cortex under the conditions of pronounced alimentary motivation,” Zhurn. Vyssh. Nerv. Deyat., No. 6, 1248–1259 (1972).
N. N. Shamaev, “The impulse activity of neurons of the orbital cortex and the lateral hypothalamus during alimentary behavior,” in: Neurons in Behavior: Systemic Aspects [in Russian], Moscow (1986), pp. 35–43.
D. G. Shevchenko, “The influence of the hypothalamus on the brainstem reticular formation,” Fiziol. Zhurn. SSSR, 55, No. 4, 414–421 (1969).
V. V. Sherstnev and V. I. Badikov, “An investigation of the role of angiotensin II in the formation of the central mechanisms of negative emotional-motivational states,” in: The Mechanisms of the Systemic Activity of the Brain [in Russian], Gorkii (1978), pp. 153–155.
N. I. Shtanenko and V. I. Badikov, “Alimentary and defense behavior of rabbits against the background of the blockade of protein synthesis,” in: The Integrative Activity of the Neuron: Molecular Bases: Materials of an International Symposium Dedicated to the 90th Anniversary of the Birth of P. K. Anokhin [in Russian], Moscow (1988), pp. 137–138.
K. V. Shuleikina, The Systemic Organization of Alimentary Behavior [in Russian], Moscow (1971).
E. A. Yumatov and E. V. Bykova, “The neurochemical characteristics of neurons of the ventromedial hypothalamus of rabbits during negative emotional reactions,” Zhurn. Vyssh. Nerv. Deyat., No. 4, 716–723 (1982).
B. K. Anand, “Nervous regulation of food intake,” Physiol. Rev., 41, 677–708 (1961).
J. T. Fitzsimons, “Bengt Andersson's pioneering demonstration of the hypothalamic ‘drinking area’ and subsequent osmoreceptor sodium receptor controversy,” Acta Physiol. Scand., 136, Suppl. 583, 15–25 (1989).
B. A. Gross and J. D. Green, “Activity of single neurons in the hypothalamus: effects of osmotic and other stimuli,” J. Physiol. (Lond.), 148, 554–569 (1959).
R. W. Hunsperger and A. F. de Molina, “Affective reactions in forebrain and brain stem,” J. Physiol., 145, 251–265 (1959).
S. T. Inoue and H. Kawamura, “Persistence of circadian rhythmicity in a mammalian hypothalamic ‘island’ containing the suprachiasmatic nucleus,” Proc. Nat. Acad. Sci., 76, 5962–5966 (1979).
M. F. MacDonnel and J. F. Flynn, “Control of sensory fields by stimulation of hypothalamus,” Science, 152, 1406–3727 (1966).
P. J. Morgane, “The function of the limbic and rhynic forebrain, limbic midbrain systems and reticular formation in the regulation of food and water intake,” Ann. New York Acad. Sci., 157, 806–848 (1969).
Y. Oomura, “Chemical and neuronal factor affecting feeding behavior,” J. Cell. Bicohem., 13E, Suppl. 227 (1989).
S. Shibata, Y. Oomura., H. Kita, and K. Hattori, “Circadian rhythmic changes of neuronal activity in the suprachiasmatic nucleus in the rat hypothalamic slice,” Brain Res.,247, 154–158 (1982).
S. Shibata, S. J. Lion, S. Ueki, and Y. Oomura, “Influence of environmental light-dark cycle and enucleationon activity of suprachiasmatic neurons in slice preparations,” Brain Res., 302, 75–81 (1984).
B. V. Zhuravlev and I. Yu. Orbachevskaya, “Pentagastrin in the systems mechanisms of feeding,” in: Systems Research in Physiology. Motivation in Functional Systems, Vol. 1 [in Russian], K. V. Sudakov (ed.), NY.; London: Paris: Montreal: Tokyo (1987), pp. 325–336.
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Translated from Zhurnal Vysshei Nervnoi Deyatel'nosti imeni I. P. Pavlova, Vol. 43, No. 2, pp. 1–11, March-April, 1993. Received January 15, 1992.
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Sudakov, K.V. The pacemaker of dominant motivation. Neurosci Behav Physiol 24, 260–266 (1994). https://doi.org/10.1007/BF02362032
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DOI: https://doi.org/10.1007/BF02362032