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New insights into activation and function of the AMPK
Nature reviews. Molecular cell biology, 2022G. Steinberg, D. Hardie
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AMPK in Cardiovascular Diseases
2016This chapter summarizes the implication of AMP-activated protein kinase (AMPK) in the regulation of various physiological and pathological cellular events of great importance for the maintenance of cardiac function. These include the control of both metabolic and non-metabolic elements targeting the different cellular components of the cardiac tissue ...
Evangelos P, Daskalopoulos +4 more
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2018
In humans, dominant mutations in the gene encoding the regulatory γ2-subunit of AMP-activated protein kinase (PRKAG2) result in a highly penetrant phenotype dominated by cardiac features: left ventricular hypertrophy, ventricular pre-excitation, atrial tachyarrhythmia, cardiac conduction disease, and myocardial glycogen storage. The discovery of a link
Arash, Yavari +2 more
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In humans, dominant mutations in the gene encoding the regulatory γ2-subunit of AMP-activated protein kinase (PRKAG2) result in a highly penetrant phenotype dominated by cardiac features: left ventricular hypertrophy, ventricular pre-excitation, atrial tachyarrhythmia, cardiac conduction disease, and myocardial glycogen storage. The discovery of a link
Arash, Yavari +2 more
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Frontiers in Bioscience, 2008
The SNF1/AMPK family of protein kinases is highly conserved in eukaryotes and is required for energy homeostasis in mammals, plants, and fungi. SNF1 protein kinase was initially identified by genetic analysis in the budding yeast Saccharomyces cerevisiae.
Kristina, Hedbacker, Marian, Carlson
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The SNF1/AMPK family of protein kinases is highly conserved in eukaryotes and is required for energy homeostasis in mammals, plants, and fungi. SNF1 protein kinase was initially identified by genetic analysis in the budding yeast Saccharomyces cerevisiae.
Kristina, Hedbacker, Marian, Carlson
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Science Signaling, 2011
The cellular energy sensor adenosine monophosphate–activated protein kinase also binds and is regulated by adenosine diphosphate.
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The cellular energy sensor adenosine monophosphate–activated protein kinase also binds and is regulated by adenosine diphosphate.
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Science Signaling, 2010
The energy sensor AMPK localizes to chromatin and phosphorylates histone H2B to facilitate gene transcription and cellular adaptation to stress.
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The energy sensor AMPK localizes to chromatin and phosphorylates histone H2B to facilitate gene transcription and cellular adaptation to stress.
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