Nuclear lipid metabolism in NEST: Nuclear envelope signal transduction

D. M. Raben; M. B. Jarpe; K. L. Leach

doi:10.1007/BF00233378

Nuclear lipid metabolism in NEST: Nuclear envelope signal transduction

D. M. Raben, M. B. Jarpe, K. L. Leach

School of Medicine

Research output: Contribution to journal › Review article › peer-review

35 Scopus citations

Abstract

There is increasing evidence that nuclear lipid metabolism in NEST is an important new component in signal transducing networks and as a result, this metabolism is beginning to attract more attention. While agonistinduced nuclear lipid metabolism adds further complexity to the ever increasing array of signal transduction components, it also provides further avenues by which nuclear activities may be regulated. Identification of the coupling mechanisms, regulation, and physiological roles of nuclear lipid metabolism represents a new and exciting area of research which will have a broad impact in our understanding of signal transduction pathways.

Original language	English (US)
Pages (from-to)	1-7
Number of pages	7
Journal	The Journal of Membrane Biology
Volume	142
Issue number	1
DOIs	https://doi.org/10.1007/BF00233378
State	Published - Oct 1 1994

Keywords

Arachidonic acid
Diglycerides
Hydrolysis
Nuclear lipid metabolism
Phosphoinositides
Signal transduction

ASJC Scopus subject areas

Biophysics
Physiology
Cell Biology

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10.1007/BF00233378

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title = "Nuclear lipid metabolism in NEST: Nuclear envelope signal transduction",

abstract = "There is increasing evidence that nuclear lipid metabolism in NEST is an important new component in signal transducing networks and as a result, this metabolism is beginning to attract more attention. While agonistinduced nuclear lipid metabolism adds further complexity to the ever increasing array of signal transduction components, it also provides further avenues by which nuclear activities may be regulated. Identification of the coupling mechanisms, regulation, and physiological roles of nuclear lipid metabolism represents a new and exciting area of research which will have a broad impact in our understanding of signal transduction pathways.",

keywords = "Arachidonic acid, Diglycerides, Hydrolysis, Nuclear lipid metabolism, Phosphoinositides, Signal transduction",

author = "Raben, {D. M.} and Jarpe, {M. B.} and Leach, {K. L.}",

year = "1994",

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T2 - Nuclear envelope signal transduction

AU - Raben, D. M.

AU - Jarpe, M. B.

AU - Leach, K. L.

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Y1 - 1994/10/1

N2 - There is increasing evidence that nuclear lipid metabolism in NEST is an important new component in signal transducing networks and as a result, this metabolism is beginning to attract more attention. While agonistinduced nuclear lipid metabolism adds further complexity to the ever increasing array of signal transduction components, it also provides further avenues by which nuclear activities may be regulated. Identification of the coupling mechanisms, regulation, and physiological roles of nuclear lipid metabolism represents a new and exciting area of research which will have a broad impact in our understanding of signal transduction pathways.

AB - There is increasing evidence that nuclear lipid metabolism in NEST is an important new component in signal transducing networks and as a result, this metabolism is beginning to attract more attention. While agonistinduced nuclear lipid metabolism adds further complexity to the ever increasing array of signal transduction components, it also provides further avenues by which nuclear activities may be regulated. Identification of the coupling mechanisms, regulation, and physiological roles of nuclear lipid metabolism represents a new and exciting area of research which will have a broad impact in our understanding of signal transduction pathways.

KW - Arachidonic acid

KW - Diglycerides

KW - Hydrolysis

KW - Nuclear lipid metabolism

KW - Phosphoinositides

KW - Signal transduction

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Nuclear lipid metabolism in NEST: Nuclear envelope signal transduction

Abstract

Keywords

ASJC Scopus subject areas

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