The Metabolic Hypothesis Revisited

• Biscoe, T.J. and Duchen, M.R., 1990, The cellular basis of transduction in carotid body chemoreceptors. Am.J. Physiol. 258:L271–L278.

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• Lahiri, S., 1994, Chromophores in O₂ chemoreception: The carotid body model. NIPS 9: 161–165

  Google Scholar 

• Melamed-Book, N. and Rahamimoff, R., 1998, The revival of the role of the mitochondrion in regulation of transmitter release. J. Physiol. 509: 2.

  Google Scholar 

• 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

  Google Scholar 

• 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.

  Google Scholar 

• Mulligan, E., Lahiri, S. and Storey, B.T., 1981, Carotid body O₂ chemoreception and mitochondrial oxidative phosphorylation. J. Appl. Physiol. 51:438–446

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• 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.

  Google Scholar 

• Zhu, H. and Bunn, H.F., 1999, Oxygen sensing and signaling: impact on the regulation of physiologically important genes. Resp. Physiol. 115: 239–247.

  Google Scholar 

Download references