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[From quantum to integrative physiology]. / Natochin, I. V.

In: Rossiǐskii fiziologicheskiǐ zhurnal imeni I.M. Sechenova / Rossiǐskaia akademiia nauk, Vol. 96, No. 11, 01.11.2010, p. 1043-1061.

Research output: Contribution to journalArticlepeer-review

Harvard

Natochin, IV 2010, '[From quantum to integrative physiology].', Rossiǐskii fiziologicheskiǐ zhurnal imeni I.M. Sechenova / Rossiǐskaia akademiia nauk, vol. 96, no. 11, pp. 1043-1061.

APA

Natochin, I. V. (2010). [From quantum to integrative physiology]. Rossiǐskii fiziologicheskiǐ zhurnal imeni I.M. Sechenova / Rossiǐskaia akademiia nauk, 96(11), 1043-1061.

Vancouver

Natochin IV. [From quantum to integrative physiology]. Rossiǐskii fiziologicheskiǐ zhurnal imeni I.M. Sechenova / Rossiǐskaia akademiia nauk. 2010 Nov 1;96(11):1043-1061.

Author

Natochin, I. V. / [From quantum to integrative physiology]. In: Rossiǐskii fiziologicheskiǐ zhurnal imeni I.M. Sechenova / Rossiǐskaia akademiia nauk. 2010 ; Vol. 96, No. 11. pp. 1043-1061.

BibTeX

@article{051e20f378c3454db3a575c0d4c23115,
title = "[From quantum to integrative physiology].",
abstract = "Physiology studies the functions of different organs, systems and how they maintain the integrity of organisms. Nervous and endocrine systems react to stimulus, causality plays a key role in their activities. Physical and chemical conditions of fluids in the internal environment serve as a background and an active modulator for regulatory influences. Autacoid formation is in many respects based on probable events. It has been proved, that during the formation of regulatory systems in cell evolution the appearance of regulatory molecules was based on statistical probability of quantum events: sporadical appearance in cells during metabolism of peptides, lipids, hydrolysis of larger molecules on fragments, quanta, which received physiological activity in the form of function regulators. These processes in their adapted, according to Darwin's mechanism of natural selection, value were recorded into the genome since synthesis readings of the polypeptides were fixed. The formation of multicellular organisms was promoted by the arise of regulatory systems and their integration under the supervision of the nervous system.",
author = "Natochin, {I. V.}",
year = "2010",
month = nov,
day = "1",
language = "English",
volume = "96",
pages = "1043--1061",
journal = "РОССИЙСКИЙ ФИЗИОЛОГИЧЕСКИЙ ЖУРНАЛ ИМ. И.М. СЕЧЕНОВА",
issn = "0869-8139",
publisher = "Издательство {"}Наука{"}",
number = "11",

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RIS

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AU - Natochin, I. V.

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N2 - Physiology studies the functions of different organs, systems and how they maintain the integrity of organisms. Nervous and endocrine systems react to stimulus, causality plays a key role in their activities. Physical and chemical conditions of fluids in the internal environment serve as a background and an active modulator for regulatory influences. Autacoid formation is in many respects based on probable events. It has been proved, that during the formation of regulatory systems in cell evolution the appearance of regulatory molecules was based on statistical probability of quantum events: sporadical appearance in cells during metabolism of peptides, lipids, hydrolysis of larger molecules on fragments, quanta, which received physiological activity in the form of function regulators. These processes in their adapted, according to Darwin's mechanism of natural selection, value were recorded into the genome since synthesis readings of the polypeptides were fixed. The formation of multicellular organisms was promoted by the arise of regulatory systems and their integration under the supervision of the nervous system.

AB - Physiology studies the functions of different organs, systems and how they maintain the integrity of organisms. Nervous and endocrine systems react to stimulus, causality plays a key role in their activities. Physical and chemical conditions of fluids in the internal environment serve as a background and an active modulator for regulatory influences. Autacoid formation is in many respects based on probable events. It has been proved, that during the formation of regulatory systems in cell evolution the appearance of regulatory molecules was based on statistical probability of quantum events: sporadical appearance in cells during metabolism of peptides, lipids, hydrolysis of larger molecules on fragments, quanta, which received physiological activity in the form of function regulators. These processes in their adapted, according to Darwin's mechanism of natural selection, value were recorded into the genome since synthesis readings of the polypeptides were fixed. The formation of multicellular organisms was promoted by the arise of regulatory systems and their integration under the supervision of the nervous system.

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C2 - 21427965

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VL - 96

SP - 1043

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JO - РОССИЙСКИЙ ФИЗИОЛОГИЧЕСКИЙ ЖУРНАЛ ИМ. И.М. СЕЧЕНОВА

JF - РОССИЙСКИЙ ФИЗИОЛОГИЧЕСКИЙ ЖУРНАЛ ИМ. И.М. СЕЧЕНОВА

SN - 0869-8139

IS - 11

ER -

ID: 110930955