original ) (raw )Analysis of muscle creatine kinase gene regulatory elements in skeletal and cardiac muscles of transgenic mice
Harald S Haugen
Molecular and cellular biology, 1996
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Absence of MEF2 Binding to the NT-rich Element in the Muscle Creatine Kinase (MCK) Enhancer Correlates with Lack of Early Expression of the MCK Gene in Embryonic Mammalian Muscle1
Roberta Melchionna
2000
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Functional Equivalence of Creatine Kinase Isoforms in Mouse Skeletal Muscle
Alan P Koretsky
Journal of Biological Chemistry, 1997
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Differentiation and fiber type-specific activity of a muscle creatine kinase intronic enhancer
Robert Welikson
Skeletal muscle, 2011
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Molecular cloning and expression during myogenesis of sequences coding for M-creatine kinase
Urs Rosenberg
Proceedings of the National Academy of Sciences, 1982
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Muscle Creatine Kinase-deficient Mice
philippe mateo
Journal of Biological Chemistry, 1995
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Creatine kinase isoenzyme transitions in muscle grafts of mice
Arthur Miranda
Cell Differentiation, 1982
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Molecular characterization of the creatine kinases and some historical perspectives
Jaime Boero
Bioenergetics of the Cell: Quantitative Aspects, 1998
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The isoenzyme-diagnostic regions of muscle-type creatine kinase, the M-260 and M-300 box, are not responsible for its binding to the myofibrillar M-band
Theo Wallimann
European Journal of Cell Biology, 1998
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Muscle creatine kinase/SV40 hybrid promoter for muscle-targeted long-term transgene expression
Sukumar Saha
International journal of molecular medicine, 2007
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Occurrence of heterogenous forms of the subunits of creatine kinase in various muscle and nonmuscle tissues and their behaviour during myogenesis
Urs Rosenberg
European journal of biochemistry / FEBS, 1981
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A Protein that Binds Specifically to the M-Line of Skeletal Muscle is Identified as the Muscle Form of Creatine Kinase
Theo Wallimann
Proceedings of the National Academy of Sciences, 1973
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MHox: a mesodermally restricted homeodomain protein that binds an essential site in the muscle creatine kinase enhancer
Laura Haygood
Development, 1992
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Upregulation of the creatine synthetic pathway in skeletal muscles of mature mdx mice
Warren McClure
Neuromuscular Disorders, 2007
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Title page Title Effects of resistance exercise with and without creatine supplementation on gene expression and cell signalling in human skeletal muscle
Rekha Patel
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Effects of Creatine and Exercise on Skeletal Muscle of FRG1-Transgenic Mice
Mark Tarnopolsky
The Canadian Journal of Neurological Sciences, 2012
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Global and targeted gene expression and protein content in skeletal muscle of young men following short-term creatine monohydrate supplementation
Simon Melov
Physiological Genomics, 2008
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Effects of the creatine analogue β-guanidinopropionic acid on skeletal muscles of mice deficient in muscle creatine kinase
Paul Jap
Biochimica et Biophysica Acta (BBA) - Bioenergetics, 1994
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Ultrastructural remodelling of slow skeletal muscle fibres in creatine kinase deficient mice: a quantitative study
Ivan Zahradnik
General physiology and biophysics, 2016
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Regenerated soleus muscle shows reduced creatine kinase efflux after contractile activity in vitro
Tomas Venckunas
Applied Physiology, Nutrition, and Metabolism, 2015
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Expression of muscle-gene-specific isozymes of phosphorylase and creatine kinase in innervated cultured human muscle
Andrea Martinuzzi
The Journal of Cell Biology, 1986
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Ultrastructural remodeling of fast skeletal muscle fibers induced by invalidation of creatine kinase
R. Ventura-clapier
AJP: Cell Physiology, 2006
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p53 protein is activated during muscle differentiation and participates with MyoD in the transcription of muscle creatine kinase gene
Eyal Bengal
Oncogene, 1998
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Creatine transporter protein content, localization, and gene expression in rat skeletal muscle
Robyn Murphy
American journal of physiology. Cell physiology, 2001
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Upregulation of M-creatine kinase and glyceraldehyde3-phosphate dehydrogenase: two markers of muscle disuse
Lucie Mabrue
American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 1999
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Dual regulation of the AMP-activated protein kinase provides a novel mechanism for the control of creatine kinase in skeletal muscle
Jennifer Morgan
The EMBO Journal, 1998
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Modulation of gene activity by consecutive gene targeting of one creatine kinase M allele in mouse embryonic stem cells
Frank Oerlemans
Nucleic Acids Research, 1991
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Inducible Cre transgenic mouse strain for skeletal muscle-specific gene targeting
Karyn Esser
Skeletal muscle, 2012
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Effects of α‐AMPK knockout on exercise‐induced gene activation in mouse skeletal muscle
Erik Richter
The FASEB Journal, 2005
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Rabbit Muscle Creatine Kinase: Consequences of the Mutagenesis of Conserved Histidine Residues †
George Kenyon
Biochemistry, 1996
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Evolution of the Creatine Kinases
Jean-Claude Perriard
Journal of Biological Chemistry, 1996
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Regulating a master regulator: Establishing tissue-specific gene expression in skeletal muscle
Jeffrey Dilworth
Epigenetics, 2010
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The primary structure of chicken B-creatine kinase and evidence for heterogeneity of its mRNA
Urs Rosenberg
Nucleic Acids Research, 1986
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The role of creatine kinase and arginine kinase in muscle
Tony Leech
Biochemical Journal, 1978
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Creatine feeding increases GLUT4 expression in rat skeletal muscle
Jeong-Sun Ju
American Journal of Physiology-Endocrinology and Metabolism, 2005
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