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In situ measurements of creatine kinase flux by NMR. The lessons from bioengineered mice |
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| Authors: | Nicolay Klaas van Dorsten Ferdi A. Reese Torsten Kruiskamp Marijn J. Gellerich Johannes F. van Echteld Cees J.A. |
| Affiliation: | (1) Department of in vivo NMR, Bijvoet Center, Utrecht University, Utrecht, The Netherlands;(2) Neurological Clinic, Martin-Luther University, Halle-Saale, Germany;(3) Heart Lung Institute and ICIN, Utrecht University Hospital, Utrecht, The Netherlands |
| Abstract: | P-31 nuclear magnetic resonance (NMR) is uniquely suited to measure the kinetics of the phosphoryl-exchange reaction catalyzed by creatine kinase in intact mammalian tissue, especially striated muscle. Recently developed transgenic mouse models of the creatine kinase iso-enzyme system open novel opportunities to assess the functional importance of the individual iso-enzymes and their relative contribution to the total in situ flux through the CK reaction. This chapter reviews the most recent findings from NMR flux measurements on such genetic models of CK function. Findings in intact mouse skeletal and cardiac muscle in vivo are compared to data from purified mitochondrial and cytosolic creatine kinase in vitro. The relevance of findings in transgenic animals for the function of CK in wild-type tissue is described and the perspectives of transgenic techniques in future quantitative studies on the creatine kinase iso-enzyme system are indicated. |
| Keywords: | creatine kinase skeletal muscle heart muscle nuclear magnetic resonance magnetization transfer transgenic mice energy metabolism enzyme flux |
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