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European Journal of Cell Biology
|
June 1, 1986
Melting of myosin rod as revealed by electron microscopy. I. Effects of glycerol and anions on length and stability of myosin rod
D Walzthöny, H M Eppenberger, T Wallimann
Journal of Muscle Research and Cell Motility
|
August 1, 1983
Isoenzyme-specific localization of M-line bound creatine kinase in myogenic cells
T Wallimann, H Moser, H M Eppenberger
Enzyme
|
January 1, 1985
Separation of mitochondrial creatine kinase (MiMi-CK) from cytosolic creatine kinase isoenzymes by Cibachrome-Blue affinity chromatography
T Wallimann, B Zurbriggen, H M Eppenberger
Proceedings of the National Academy of Sciences of the United States of America
|
September 1, 1983
Creatine kinase activity in the Torpedo electrocyte and in the nonreceptor, peripheral v proteins from acetylcholine receptor-rich membranes
F J Barrantes, G Mieskes, T Wallimann
FEBS Letters
|
March 26, 1990
Two different B-type creatine kinase subunits dimerize in a tissue-specific manner
A F Quest, H M Eppenberger, T Wallimann
Biophysical Journal
|
July 24, 1998
Structural changes of creatine kinase upon substrate binding
M Forstner, M Kriechbaum, P Laggner, et al.
Developmental Neuroscience
|
January 1, 1993
Functional maturation of creatine kinase in rat brain
D Holtzman, M Tsuji, T Wallimann, et al.
The Journal of Cell Biology
|
June 1, 1983
Novel staining pattern of skeletal muscle M-lines upon incubation with antibodies against MM-creatine kinase
T Wallimann, T C Doetschman, H M Eppenberger
The Journal of Biological Chemistry
|
November 15, 1988
Native mitochondrial creatine kinase forms octameric structures. II. Characterization of dimers and octamers by ultracentrifugation, direct mass measurements by scanning transmission electron microscopy, and image analysis of single mitochondrial creatine kinase octamers
T Schnyder, A Engel, A Lustig, et al.
The Journal of Biological Chemistry
|
June 27, 1998
Mitochondrial creatine kinase is a prime target of peroxynitrite-induced modification and inactivation
O Stachowiak, M Dolder, T Wallimann, et al.
Page
of 17
Search research articles
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Showing results (41-50 of 161) with videos related to
Sort By:
Page
of 17
European Journal of Cell Biology
|
June 1, 1986
Melting of myosin rod as revealed by electron microscopy. I. Effects of glycerol and anions on length and stability of myosin rod
D Walzthöny, H M Eppenberger, T Wallimann
Journal of Muscle Research and Cell Motility
|
August 1, 1983
Isoenzyme-specific localization of M-line bound creatine kinase in myogenic cells
T Wallimann, H Moser, H M Eppenberger
Enzyme
|
January 1, 1985
Separation of mitochondrial creatine kinase (MiMi-CK) from cytosolic creatine kinase isoenzymes by Cibachrome-Blue affinity chromatography
T Wallimann, B Zurbriggen, H M Eppenberger
Proceedings of the National Academy of Sciences of the United States of America
|
September 1, 1983
Creatine kinase activity in the Torpedo electrocyte and in the nonreceptor, peripheral v proteins from acetylcholine receptor-rich membranes
F J Barrantes, G Mieskes, T Wallimann
FEBS Letters
|
March 26, 1990
Two different B-type creatine kinase subunits dimerize in a tissue-specific manner
A F Quest, H M Eppenberger, T Wallimann
Biophysical Journal
|
July 24, 1998
Structural changes of creatine kinase upon substrate binding
M Forstner, M Kriechbaum, P Laggner, et al.
Developmental Neuroscience
|
January 1, 1993
Functional maturation of creatine kinase in rat brain
D Holtzman, M Tsuji, T Wallimann, et al.
The Journal of Cell Biology
|
June 1, 1983
Novel staining pattern of skeletal muscle M-lines upon incubation with antibodies against MM-creatine kinase
T Wallimann, T C Doetschman, H M Eppenberger
The Journal of Biological Chemistry
|
November 15, 1988
Native mitochondrial creatine kinase forms octameric structures. II. Characterization of dimers and octamers by ultracentrifugation, direct mass measurements by scanning transmission electron microscopy, and image analysis of single mitochondrial creatine kinase octamers
T Schnyder, A Engel, A Lustig, et al.
The Journal of Biological Chemistry
|
June 27, 1998
Mitochondrial creatine kinase is a prime target of peroxynitrite-induced modification and inactivation
O Stachowiak, M Dolder, T Wallimann, et al.
Page
of 17