Standard

Graficheskiǐ metod analiza statsionarnoǐ kinetiki polifermentnykh sistem. / Magarshak, I. B.; Stefanov, V. E.

в: Molekulyarnaya Biologiya, Том 13, № 2, 03.1979, стр. 347-354.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Magarshak, IB & Stefanov, VE 1979, 'Graficheskiǐ metod analiza statsionarnoǐ kinetiki polifermentnykh sistem.', Molekulyarnaya Biologiya, Том. 13, № 2, стр. 347-354.

APA

Magarshak, I. B., & Stefanov, V. E. (1979). Graficheskiǐ metod analiza statsionarnoǐ kinetiki polifermentnykh sistem. Molekulyarnaya Biologiya, 13(2), 347-354.

Vancouver

Magarshak IB, Stefanov VE. Graficheskiǐ metod analiza statsionarnoǐ kinetiki polifermentnykh sistem. Molekulyarnaya Biologiya. 1979 Март;13(2):347-354.

Author

Magarshak, I. B. ; Stefanov, V. E. / Graficheskiǐ metod analiza statsionarnoǐ kinetiki polifermentnykh sistem. в: Molekulyarnaya Biologiya. 1979 ; Том 13, № 2. стр. 347-354.

BibTeX

@article{f909c4ca1eb94f85b60f59f339c9098d,
title = "Graficheskiǐ metod analiza statsionarnoǐ kinetiki polifermentnykh sistem.",
abstract = "Methods based on the graphical representation of relations between metabolites concentrations were worked out for the description and analysis of the steady-state kinetics of the multienzyme systems. The properties of graphics characterizing various steady-state regimens were investigated. Relations relevant to the analysis of regulatory phenomena were derived for the concentration of non-adjacent metabolites. Rules are presented for the kinetical description of multienzyme systems posessing external inputs and outputs. Certain branchings occuring in multienzyme systems were considered. The developed methods allow generalization concerning multisubstrate multiproduct reactions as well as systems containing regulatory enzymes with non-michaelian kinetics. It is suggested that the generalized methods may be helpful for the analysis of the metabolic regulation.",
author = "Magarshak, {I. B.} and Stefanov, {V. E.}",
year = "1979",
month = mar,
language = "русский",
volume = "13",
pages = "347--354",
journal = "МОЛЕКУЛЯРНАЯ БИОЛОГИЯ",
issn = "0026-8984",
publisher = "Российская академия наук",
number = "2",

}

RIS

TY - JOUR

T1 - Graficheskiǐ metod analiza statsionarnoǐ kinetiki polifermentnykh sistem.

AU - Magarshak, I. B.

AU - Stefanov, V. E.

PY - 1979/3

Y1 - 1979/3

N2 - Methods based on the graphical representation of relations between metabolites concentrations were worked out for the description and analysis of the steady-state kinetics of the multienzyme systems. The properties of graphics characterizing various steady-state regimens were investigated. Relations relevant to the analysis of regulatory phenomena were derived for the concentration of non-adjacent metabolites. Rules are presented for the kinetical description of multienzyme systems posessing external inputs and outputs. Certain branchings occuring in multienzyme systems were considered. The developed methods allow generalization concerning multisubstrate multiproduct reactions as well as systems containing regulatory enzymes with non-michaelian kinetics. It is suggested that the generalized methods may be helpful for the analysis of the metabolic regulation.

AB - Methods based on the graphical representation of relations between metabolites concentrations were worked out for the description and analysis of the steady-state kinetics of the multienzyme systems. The properties of graphics characterizing various steady-state regimens were investigated. Relations relevant to the analysis of regulatory phenomena were derived for the concentration of non-adjacent metabolites. Rules are presented for the kinetical description of multienzyme systems posessing external inputs and outputs. Certain branchings occuring in multienzyme systems were considered. The developed methods allow generalization concerning multisubstrate multiproduct reactions as well as systems containing regulatory enzymes with non-michaelian kinetics. It is suggested that the generalized methods may be helpful for the analysis of the metabolic regulation.

UR - http://www.scopus.com/inward/record.url?scp=0018448484&partnerID=8YFLogxK

M3 - статья

C2 - 440305

AN - SCOPUS:0018448484

VL - 13

SP - 347

EP - 354

JO - МОЛЕКУЛЯРНАЯ БИОЛОГИЯ

JF - МОЛЕКУЛЯРНАЯ БИОЛОГИЯ

SN - 0026-8984

IS - 2

ER -

ID: 89846214