Biological rhythms in the living cell: tunes of the life

Автор: Zaguskin Sergey L.

Рубрика: Review

Статья в выпуске: 12, 2018 года.

Бесплатный доступ

Offered is an overview of the author's papers in exploring an interface between biological rhythms of energy, function and biosynthesis in a nerve cell of a crayfish stretch receptor. Parameters of mitochondrion aggregation rhythms integrally determine the energy metabolism in the cell. The level and the rhythms of aggregation of granular reticulum integrally reflect the regulation of biosynthesis in the body of the neuron cell. An influence of the functional activity on biosynthesis in the neuron soma and the influence of the pulse activity of the neuron are defined by rhythms of change in rates and density of flows of energy metabolism. An enhancement of the functional activity of a neuron corresponds to an increase in the rate of flow of energy produced, and an intensification of biosynthesis is linked with augmenting the energy flux density. The time lag in changing priorities in the energy regulation of the function and biosynthesis can explain variability of biological rhythm periods in a cell, the mechanism of the cell biological clock and an adaptation to the rhythms of the environment. Rhythms features of the function, biosynthesis and energetics are determined by a harmonization between the rhythms of sol-gel transitions in the cell compartments.

Еще

Chronobiology, nerve cell, biological rhythms, desynchronosis, functional activity, energy metabolism

Короткий адрес: https://sciup.org/148308843

IDR: 148308843 | DOI: 10.12710/cardiometry.2018.12.619

Список литературы Biological rhythms in the living cell: tunes of the life

Aleksandrov VY. Problem of behavior on a cellular level (citoetologiya). Usp. sovr. biol. 1970;68(2):220-40.
Bauer ES. Physical fundamentals of biology. M.:Mosoblispolkom. 1930.101p.
Brodskij VY. Circahoralian metabolic rhythms. Biochemistry. 2014;49(6):619-32.
Vladimirskij BM, Temuryanc NA, Martynyuk VS. Space weather and our life. Fryazino: Izd-vo Vek 2. 2004. 221s.
Hejlbrun L. Dynamic of a living photoplasma. M.: IL, 1957. 348p.
Grinchenko SN, Zaguskin SL. Mechanisms of living cell: algorithmical model. M.: Nauka, 1989. 232p.
Gurvich AA. Selected works. M.: Medicina, 1977. 352p.
Zhabotinskij AM. Concentration autooscillations. M.: Nauka. 1974. 179 p.
Zaguskin SL. Role of intercellular calcium and the neuron’s energetics in its adaptation to adequate and pharmacological influences. Ultrastructure of neurons and pharmacological influences. Pushhino:Nauka. 1981; p.37-44.
Zaguskin SL. Circahoralian rhythms the neuron integrative function. Izvestiya RAS, ser. biolog. 2000;1:62-70.
Zaguskin SL. Cellular rhythms and human health. Rostov n/d:Sfedu. 2010; 292p.
Zaguskin SL. Biocontrol of vital functions based on hierarchy of sol-gel transition rhythms in the organism cells. Space and time. 2016;3-4(25-26):261-9.
Zaguskin SL, Grinchenko SN, Brodskij VY. Interrelation between circadian and circahoralian rhythms: cybernetic model. Izvestiya AN SSSR (ser. biolog.). 1991;6:965-9.
Zaguskin SL, Zaguskina LD. Spatio-temporal organization of mitochondria in a nerve cell in a state of calm and excitation. Citologiya. 1977;19(9):951-8.
Zaguskin SL, Zaguskina LD. Stability and sensitivity of biological processes to cosmophysical factors. Biophyics. 1995;40(5):1117-20.
Zaguskin SL, Nemirovskij LE, Zhukockij AV, Vaxtel NM, Brodskij VY. The rhythm of redistribution of tigroid in a living neuron of cancer mechanoreceptor. Citologiya. 1980;22(8):982-7.
Zaguskin SL, Nikitenko AA, Ovchinnikov YA, Proxorov AM, Savranskij VV, Degtyareva VP, Platonov VN. On a range of oscillation period in a living cell microstructure. Dokl. AN SSSR. 1984;277(6):1468-71.
Komarov FI, Zaguskin SL, Rapoport SI. Chronobiological field of medicine: biocontroled chronophysiotherapy. Terapevt. arxiv. 1994, 8:3-6.
Ling G. Physical theory of living cell: unnoticed revolution. Spb.: Nauka, 2008. 376p.
Rapoport SI. (red.) Melatonin: perspectives of application in clinics. M.: Ima-Press, 2012. 176p.
Selkov EE. Temporal organization of energetic metabolism and cellular clock. In: Regulation of energetic metabolism and physiological state of the organism. M.: Nauka, 1978; p.15-32.
Xetagurova LG, Salbiev KD. Chronopathophysiology of pre-clinical health disorders. Vladikavkaz:Proekt-Press. 2000;176p.
Brodsky VY. Rhythm of protein synthesis and other circahoralian oscillations. The possible involvement of fractals. In Ultradian rhythms in life processes (eds. Lloyd D. and Rossi EL), Springer, London. 1992. pp. 23-40
Hardin PE, Hall JC, Rosbash M. Feedback of the Drosophila period gene product on circadian cycling of its messenger RNA levels. Nature. 1990;343:536-40.
Liu X, Zwiebel LJ, Hinton D, Benzer S, Hall JC, Rosbash M. The period gene encodes a predominantly nuclear protein in adult Drosophila. J Neurosci. 1992;12:2735-44.
Rapp PE. An atlas of cellular oscillators. J. exp. biol. 1979;8:281-306.
Rapp PE, Berridge MJ. Oscillations in calcium-cyclic AMP control loops form the basis of pacemaker activity and other high frequency biological rhythms. J. theor. biol. 1977; 66:497-525.
Rensing L, Techel D, Gebauer G. On the role of calcium and protein phosphorylation in the circadian clock mechanism. J. Interdiscip. Cycle Res. 1989;20(3):227.
Ringham GL. Origin of nerve impulse in slow adapting stretch receptor of crayfish. J. Neurophysiol. 1971;34(5):773-84.
Schbert P, Kreutzberg GW, Lux HD. Neuroplasmic transport in dendrites: effect of colchicine on morphology and physiology of motoneurones in the cat. Brain.Res. 1972;47(2):331-43.
Schweiger HG, Hartwig R, Schweiger M. Cellular aspects of circadian rhythms. J. сell sci. 1986; Suppl, 81(4):181-200.
Skaugen E. Possible functional significance of the geometry of the initial segment in nerve cells. Acta physiol. scand. 1973; Suppl. 89(396):111.
Vosshall LB, Price JL, Sehgal A, Saez L, and Young MW. Block in nuclear localiz. of period prot. by a sec. clock mutation, timeless. Science. 1994;263:1606-9.
Weiss PA. Neur. dyn. and axonal flow: axonal peristalsis. Proc.Nat.Acad.Sci.USA.1972.69(5):1309-12.

Еще

Статья обзорная