Mitochondrial Creatine Kinase is Critically Necessary to Maintain ...

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MS H-00800-2001-R1 1. Bessman, S. P., and P. J. Geiger. Transport of energy in muscle: the phosphorylcreatine shuttle. Science 211: 448-52, 1981. 2. Bittl, J. A., J. DeLayre, and J. S. Ingwall. Rate equation for creatine kinase predicts the in vivo reaction velocity: 31P NMR surface coil studies in brain, heart, and skeletal muscle of the living rat. Biochemistry 26: 6083-90, 1987. 3. Boehm, E., V. Veksler, P. Mateo, C. Lenoble, B. Wieringa, and R. Ventura-Clapier. Maintained coupling of oxidative phosphorylation to creatine kinase activity in sarcomeric mitochondrial creatine kinase-deficient mice. J Mol Cell Cardiol 30: 901-12., 1998. 4. Gibbs, C. The cytoplasmic phosphorylation potential. Its possible role in the control of myocardial respiration and cardiac contractility. J Mol Cell Cardiol 17: 727-31., 1985. 5. in 't Zandt, H. J., F. Oerlemans, B. Wieringa, and A. Heerschap. Effects of ischemia on skeletal muscle energy metabolism in mice lacking creatine kinase monitored by in vivo 31P nuclear magnetic resonance spectroscopy. NMR Biomed 12: 327-34, 1999. 6. Ingwall, J. S. Is cardiac failure a consequence of decreased energy reserve? Circulation 87: 58-62, 1993. 7. Kaasik, A., V. Veksler, E. Boehm, M. Novotova, A. Minajeva, and R. Ventura-Clapier. Energetic crosstalk between organelles: architectural integration of energy production and utilization. Circ Res 89: 153-9., 2001. 8. Kammermeier, H. Microassay of free and total creatine from tissue extracts by combination of chromatographic and fluorometric methods. Anal Biochem 56: 341-5, 1973. 9. Lawson, J. W., and R. L. Veech. Effects of pH and free Mg2+ on the Keq of the creatine kinase reaction and other phosphate hydrolyses and phosphate transfer reactions. J Biol Chem 254: 6528-37, 1979. 18
MS H-00800-2001-R1 10. Liao, R., L. Nascimben, J. Friedrich, J. K. Gwathmey, and J. S. Ingwall. Decreased energy reserve in an animal model of dilated cardiomyopathy. Relationship to contractile performance. Circ Res 78: 893-902, 1996. 11. Lowry, O. H., N. J. Rosenbrough, A. L. Farr, and R. J. Randall. Protein measurement with the Folin phenol reagent. J Biol Chem 193: 265-275, 1951. 12. Nascimben, L., J. S. Ingwall, P. Pauletto, J. Friedrich, J. K. Gwathmey, V. Saks, A. C. Pessina, and P. D. Allen. Creatine kinase system in failing and nonfailing human myocardium. Circulation 94: 1894-901, 1996. 13. Neubauer, S., M. Horn, M. Cramer, K. Harre, J. B. Newell, W. Peters, T. Pabst, G. Ertl, D. Hahn, J. S. Ingwall, and K. Kochsiek. Myocardial phosphocreatine-to-ATP ratio is a predictor of mortality in patients with dilated cardiomyopathy. Circulation 96: 2190-6, 1997. 14. Neubauer, S., M. Horn, A. Naumann, R. Tian, K. Hu, M. Laser, J. Friedrich, P. Gaudron, K. Schnackerz, J. S. Ingwall, and et al. Impairment of energy metabolism in intact residual myocardium of rat hearts with chronic myocardial infarction. J Clin Invest 95: 1092-100, 1995. 15. Neubauer, S., H. Remkes, M. Spindler, M. Horn, F. Wiesmann, J. Prestle, B. Walzel, G. Ertl, G. Hasenfuss, and T. Wallimann. Downregulation of the Na(+)-creatine cotransporter in failing human myocardium and in experimental heart failure. Circulation 100: 1847-50, 1999. 16. Polimeni, P. I., and S. I. Buraczewski. Expansion of extracellular tracer spaces in the isolated heart perfused with crystalloid solutions: expansion of extracellular space, trans- sarcolemmal leakage, or both? J Mol Cell Cardiol 20: 15-22., 1988. 17. Rosalski, S. B. An improved procedure for serum creatine phosphokinase determination. J Lab Clin Med 69: 696-705, 1967. 18. Saks, V. A., Z. A. Khuchua, E. V. Vasilyeva, O. Belikova, and A. V. Kuznetsov. Metabolic compartmentation and substrate channelling in muscle cells. Role of coupled creatine 19
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Page 3 and 4: Abstract MS H-00800-2001-R1 The ind
Page 5 and 6: MS H-00800-2001-R1 metabolites were
Page 7 and 8: MS H-00800-2001-R1 derivative oft l
Page 9 and 10: MS H-00800-2001-R1 LC-18, 4.6 x 250
Page 11 and 12: MS H-00800-2001-R1 Representative 3
Page 13 and 14: MS H-00800-2001-R1 work examining t
Page 15 and 16: MS H-00800-2001-R1 was calculated,
Page 17: MS H-00800-2001-R1 Substrate-depend
Page 21 and 22: MS H-00800-2001-R1 25. van Deursen,
Page 23 and 24: Table 2. Creatine kinase isoenzyme
Page 25: Legends: MS H-00800-2001-R1 Figure

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