Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase.

Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase. Research Abstract Details 

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Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase. Abstract Text:

E Hashimoto,K Mizuta,A Tsutou,S Nakamura,H Yamamura,

Ca2+-stimulated inactivation of liver glycogen synthase was observed when a partially purified liver phosphorylase kinase fraction containing glycogen synthase was incubated with ATP-Mg2+. The Ca2+-stimulated portion of this inactivation was partially counteracted by trifluoperazine and slightly stimulated by exogenously added calmodulin. These results suggest that Ca2+-calmodulin may be involved as one of the factors causing this glycogen synthase inactivation. Although the exact mechanism mediated by Ca2+ has not been clearly determined, the possibility of the participation of some Ca2+-dependent protein kinase is discussed.

Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase. Publishing Authors By Initials

E Hashimoto,K Mizuta,A Tsutou,S Nakamura,H Yamamura,

For similar phenothiazines: trifluoperazine research abstracts see: phenothiazines: trifluoperazine research

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Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase. Journal Published:

PUBLICATION TYPE: Research Support, Non-U.S. Gov

Journal: Journal of biochemistry

VOLUME: 93

Page Numbers: 939-42

Journal Abbreviation: J. Biochem.

ISSN: 0021-924X

DAY: 19

MONTH: Mar

YEAR: 1983

Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase. Information

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LANGUAGE: eng

NlmUniqueID: 376600

Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase. Keywords Mesh Terms:

KEYWORDS: Trifluoperazine

MESH TERMS: pharmacology

Chemical & Substance for Abstract: Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase. Information

Substance Name: Phosphorylase Kinase

Registry Number: EC 2.7.1.19

Grant and Affiliation Information for Calcium-stimulated, ATP-magnesium-dependent inactivation of pig liver glycogen synthase.

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Country: JAPAN

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MEDLINETA: J Biochem

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