REFERENCES
- Agostoni, A., Stabilini, R., Viggiano, G., Luzzana, M., and Samaja, M. 1980. Influence of capillary and tissue P02 on carbon monoxide binding to myoglobin: a theoretical evaluation. Microvasc. Res. 20:81–87.
- Agostoni, A., Perrella, M., Sabb ioneda, L., and Zoni, U. 1988. CO binding to hemoglobin and myoglobin in equilibrium with a gas phase of low P02 value.J. Appl. Physiol. 65:2513–2517.
- Bailey, J. R., and Driedzic, W. R. 1986. Function of myoglobin in oxygen consumption by isolated perfused fish hearts. Am.J. Physiol. 251:R1144–R1150.
- Bailey, J. R., Sephton, D. H., and Driedzic, W. R. 1990. Oxygen uptake by isolated perfused fish hearts with differing myoglobin concentrations under hypoxic conditions./ Mol. Cell. CardioL 22:1125–1134.
- Braunlin, E. A., Wah ler, G. M., Swayze, C. R., Lucas, R. V, and Fox, I. J. 1986. Myoglobin facilitated oxygen diffusion maintains mechanicalfunction of mammalian cardiac muscle. Cardiovasc. Res. 20:627–636.
- Burnett, R. T., Dales, R. E., Brook, J. R., Raizenne, M. E., and Krewski, D. 1997. Association between ambient carbon monoxide levels and hosp italizations for congestive heart failure in the elderly in 10 Canadian cities. Epidemiology 8:162–167.
- Burnett, R. T., Cakmak, S., Raizenne, M. E., Stieb, D., Vincent, R., Krewski, D., Brook, J. R., Philips, O., and Ozkaynak, H. 1998. The association between ambient carbon monoxide levels and daily mortality in Toronto, Canada./ Air Waste Manage. Assoc. 48:689–700.
- Clark, B. J., and Coburn, R. F. 1975. Mean myoglobin oxygen tension during exercise at maximal oxygen uptake.J. Appl. Physiol. 39:135–144.
- Coburn, R. F. 1970. The carbon monoxide body stores. In Biological effects of carbon monoxide, ed. R. F. Coburn. Ann. NY Acad. ScL 174:11–22.
- Coburn, R. F., and Mayers, L. B. 1971. Myoglobin 02 tension determined from measurements of car-boxymyoglobin in skeletal muscle. Am.J. Physiol. 220:66–74.
- Coburn, R. F., Ploegmakers, F., Gondrie, P., and Abboud, R. 1973. Myocardial myoglobin oxygen tension. Am.J. Physiol. 224:870–876.
- Cole, R. P. 1982. Myoglobin function in exercising skeletal muscle. Science216:523–525.
- Cole, R. P. 1983. Skeletal muscle function in hypoxia: Effect of alteration of intracellular myoglobin. Respir. Physiol. 53:1–14.
- Dahms, T. E., and Baudendistel, L. J. 1991. The effect of hypoxia on the movement of carbon monoxide out of the vascular compartment. 84th Annual Meeting and Exhibition of the Air & Waste Manage-ment Association, June, Vancouver, BC, Canada. Paper number 91–138.5. Pittsburgh: Air & Waste Management Association.
- Delanghe, J. R., De Buyzere, M. L., Cluyse, L. P., Thierens, H. M., and Clement, D. L. 1992. Acute myocardial infarction size and myoglobin release into serum. Eur J. Clin. Chem. Clin. Biochem. 30:823–830
- Doeller, J. E., and Wittenberg, B. A. 1991. Myoglobin function and energy metabolism of isolated cardiac myocytes: Effect of sodium nitrite. Am.J. Physiol. 261:H53–H62.
- Gayeski, T. E. J., and Honig, C. R. 1986. 02 gradients from sarcolemma to cell interior in red muscle at maximal V02. Am.J. Physiol. 251:H789–H799.
- Godecke, A., Flogel, U., Zanger, K., Ding, Z., Hirchenhain, J., Decking, U. K. M., and Schrader, J. 1999. Disruption of myoglobin in mice induces multiple compensatory mechanisms. Proc. Natl. Acad. ScL USA 96:10,495–10,500.
- Gupta, R. K., and Wittenberg, B. A. 1991. 31P-NMR studies of isolated adult heart cells: Effect of myoglobin inactivation.Am. J. Physiol. 261:H1155–H1163.
- Hassinen, I. E., Hiltunen, J. K., and Takala, T. E. S. 1981. Reflectance spectrophotometric monitoring of the isolated perfused heart as a method of measuring the oxidation-reduction state of cytochromes and oxygenation of myoglobin. Card iovasc. Res. 15:86–91.
- Heinke, M. Y., Wheeler, C. H., Yan, J. X., Amin, V., Chang, D., Einstein, R., Dunn, M. J., and Dos Reme-dios, C. G. 1999. Changes in myocardial protein expression in pacing-induced canine heart failure. Electrophoresis20:2086–2093.
- Horvath, S. M., Bedi, J. F., Wagner, J. A., and Agnew, J. 1988. Maximal aerobic capacity at several ambient concentrations of CO at several altitudes. J. Appl. Physiol. 65:2696–2708.
- Jelicks, L. A., and Wittenberg, B. A. 1995.1H nuclear magnetic resonance studies of sarcoplasmic oxygena-tion in the red cell-perfused rat heart. Biophys. J. 68:2129–2136.
- Livingston, D. J., La Mar, G. N., and Brown, W. D. 1983. Myoglobin diffusion in bovine heart muscle. Science220:71–73.
- Luomanmaki, K., and Coburn, R. F. 1969. Effects of metabolism and distribution of carbon monoxide on blood and body stores. Am.J. Physiol. 217:354–363.
- Morris, R. D., and Naumova, E. N. 1998. Carbon monoxide and hospital admissions for congestive heart failure: Evidence of an increased effect at low temperatures. Environ. Health Perspect. 106:649–653.
- Morris, R. D., Naumova, E. N., and Munasinghe, R. L. 1995. Ambient air pollution and hospitalization for congestive heart failure among elderly people in seven large US cities. Am.J. Public Health 85:1361–1365.
- O'Brien, P. J., and Gwathmey, J. K. 1995. Myocardial Ca' and ATP-cycling imbalances in end-stage dilated and ischemic cardiomyopathies. Card iovasc. Res. 30: 394–404.
- O'Brien, P. J., O'Grady, M., McCutcheon, L. J., Shen, H., Nowack, L., Home, R. D., Mirsalimi, S. M., Julian, R. J., Grima, E. A., Moe, G. W., and Armstrong, P. W. 1992. Myocardial myoglobin deficiency in various animal models of congestive heart failure.J. Mol. Cell CardioL 24:721–730.
- Roughton, F. J. W. 1964. Transport of oxygen and carbon dioxide. In Handbook of physiology, Section 3: Respiration volume 1, eds. W. O. Fenn and H. Rahn, pp. 767–825. Washington, DC: American Physiological Society.
- Stone, M. J., Waterman, M. R., Harimoto, D., Murray, G., Willson, N., Platt, M. R., Blomqvist, G., and Willerson, J. T. 1977. Serum myoglobin level as diagnostic test in patients with acute myocardial infarction. Br. Heart]. 39:375–380
- Tamura, M., Oshino, N., Chance, B., and Silver, I. A. 1978. Optical measurements of intracellular oxygen concentration of rat heart in vitro. Arch. Biochem. Biophys. 191:8–22.
- Taylor, D. J., Matthews, P. M., and Radda, G. K. 1986. Myoglobin-dependent oxidative metabolism in the hypoxic rat heart. Respir. Physiol. 63:275–283.
- Thom, S. R., Ohnishi, S. T., Fisher, D., Xu, Y. A., and Ischiropoulos, H. 1999. Pulmonary vascular stress from carbon monoxide. ToxicoL AppL PharmacoL 154:12–19.
- Thom, S. R., Fisher, D., Xu, Y. A., Notarfrancesco, K., and Ischiropoulos, H. 2000. Adaptive responses and apoptosis in endothelial cells exposed to carbon monoxide. Proc. NatL Acad. ScL USA 97(3):1305–1310.
- Weil, J., Eschenhagen,T, Magnussen, O., Mittmann, C., Orthey, E., Scholz, H., Schafer, H., and Scholtysik, G. 1997. Reduction of myocardial myoglobin in bovine dilated cardiomyopathy. J. MoL Cell CardioL 29:743–751.
- White, R. L., and Wittenberg, B. A. 1993. NADH fluorescence of isolated ventricular myocytes: Effects of pacing, myoglobin, and oxygen supply. Biophys.J. 65:196–204.
- Wittenberg, B. A., and Wittenberg, J. B. 1987. Myoglobin-mediated oxygen delivery to mitochondria of isolated cardiac myocytes. Proc. NatL Acad. ScL USA 84:7503–7507.
- Wittenberg, B. A., and Wittenberg, J. B. 1989. Transport of oxygen in muscle. Annu. Rev. PhysioL 51:857–878.
- Wittenberg, J. B., and Wittenberg, B. A. 1990. Mechanisms of cytoplasmic hemoglobin and myoglobin function. Annu. Rev. Biophys. Biophys. Chem. 19:217–241.