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Biscoe, T.J. and Duchen, M.R., 1990, The cellular basis of transduction in carotid body chemoreceptors. Am.J. Physiol. 258:L271–L278.
Burke, P.V. and Kwast, K.E., 1999, Oxygen dependence of expression of cytochrome c and cytochrome c oxidase genes in S. cerevisiae. Abstract. Oxygen Sensing: Molecule to Man-International ISAC Meeting, June 24–28, Philadelphia, PA.
Dukes, I.D., Roe, M.W., Worley III, J.F. and Philipson, L.H., 1997, Glucose-induced alterations in T-cell cytoplasmic Ca2+ involving the coupling of intracellular Ca2+ stores and plasmamembraneionchannels. Current Opinion in Endocrinology and Diabetes 4:262–271.
Hand, S.C., 1999, Arrest of gene expression during anoxia in invertebrate embryos: evidence for a mitochondrial oxygen sensor. Abstract. Oxygen Sensing: Molecule to Man, International ISAC Meeting, June 24–28, Philadelphia, PA.
Kwast, K.E., Burke, P.V., Staahl, B.T. and Poyton, R.O., 1999, Oxygen sensing in yeast: Evidence for the involvement of the respiratory chain in regulating the transcription of a subset of hypoxic genes. Pmc. Natl. Acad. Sci. USA 96: 5446–5451.
Lahiri, S., Itturiaga, R., Mokashi, A., Ray, O.K. and Chugh, D., 1993, CO reveals dual mechanisms of O2 chemoreception in the cat carotid body. Resp. Physiol. 94: 227–240.
Lahiri, S., 1994, Chromophores in O2 chemoreception: The carotid body model. NIPS 9: 161–165
Melamed-Book, N. and Rahamimoff, R., 1998, The revival of the role of the mitochondrion in regulation of transmitter release. J. Physiol. 509: 2.
Mokashi, A., Roy, A., Rozanov, C., Osanai, S., Storey, B.T. and Lahin, S., 1998, High Pco does not alter pHi but raises [Ca2+], in cultured rat carotid body glomus cells in the absence and presence of CaCl2BrainRex. 803: 194–197
Montoro, R. J., Urena, J., Fernandez.-Chacon, R., Alvarez de Toledo, G. and Lopez-Barneo, J., 1996, Oxygen sensing by ion channels and chemotransduction in single glomus cells. J GenPhysiol. 107: 133–143.
Mulligan, E., Lahiri, S. and Storey, B.T., 1981, Carotid body O2 chemoreception and mitochondrial oxidative phosphorylation. J. Appl. Physiol. 51:438–446
Roy, A., Rozanov, C., Iturriaga, A. Mokashi, A. and Lahiri, S., 1997, Acid sensing by carotid body is inhibited by blockcrs of voltage-sensitive calcium channels. Brain Rex. 769: 396–399.
Rizzuto, R., Pinton, P. Carrington, W., Fay, F.S. Fogarty, K.E., Lifshitz, L.M., Tuft, R.A. and Pozzan, T., 1998, Close contacts with the endoplasmic reticulum as determinants of channel blocker. Brain Res 833: 101–107.
Rozanov, C., Roy, A., Mokashi, A., Wilson, D.F., Lahiri, S. and Acker, H., 1999, Chemosensory response to high Pco is blocked by cadmium, a voltage-sensitive calcium channel blocker Brain Res 833: 101–107.
Sorimachi, M., Yamagami, K., Rhee, J.-S., Ishibashi, H. and Akaike, N., 1999, Excitatory effectof Cd2+ on cat adrenal chromaffin cells. Brain Res. 832: 23–30.
Warburg, O.H., 1949, Action of carbon monoxide on chemical processes in cells. In Heavy metal prosthetic groups and enzyme action, (translated by Alexander Lawson). Oxford at the Clarendon Press, pp. 73–89.
Wilson, D.F., Mokashi, A., Chugh, D., Vinogradov, S., Osanai, S. and Lahiri, S., 1994, The primary oxygen sensor of the cat carotid body is cytochrome ±3 of the mitochondrial respiratory chain. FEBS Lett. 351: 370–374.
Zhu, H. and Bunn, H.F., 1999, Oxygen sensing and signaling: impact on the regulation of physiologically important genes. Resp. Physiol. 115: 239–247.
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Rozanov, C. et al. (2002). The Metabolic Hypothesis Revisited. In: Lahiri, S., Prabhakar, N.R., Forster, R.E. (eds) Oxygen Sensing. Advances in Experimental Medicine and Biology, vol 475. Springer, Boston, MA. https://doi.org/10.1007/0-306-46825-5_37
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DOI: https://doi.org/10.1007/0-306-46825-5_37
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