[1] X. Aubert, B. Chance, R. D. Keynes, "Optical studies of biochemical events in the electric organ of Electrophorus," Proc. R. Soc. B 160, 211-245 (1964).
[2] B. Chance, "Spectrophotometric and kinetic studies of flavoproteins in tissues, cell suspensions, mitochondria and their fragments," in Flavins and Flavoproteins, E. Slater (ed.), Elsevier Publishing Company, Amsterdam, pp. 496-510 (1966).
[3] B. Chance, H. Baltscheffsky, "Respiratory enzymes in oxidative phosphorylation. VII. Binding of intramitochondrial reduced pyridine nucleotide," J. Biol. Chem. 233(3), 736-739 (1958).
[4] B. Chance, M. Baltscheffsky, "Spectroscopic effects of adenosine diphosphate upon the respiratory pigments of rat-heart-muscle sarcosomes," Biochem. J. 68(2), 283-295 (1958).
[5] B. Chance, P. Cohen, F. J€obsis, B. Schoener, "Intracellular oxidation-reduction states in vivo," Science 137, 499-508 (1962).
[6] B. Chance, L. Mela, D. Wong, Flavins and Flavoproteins., in 2nd Conference on Flavins and Flavoproteins. Univ. of Tokyo Press, Tokyo (1968).
[7] B. Chance, G. R. Williams, "Respiratory enzymes in oxidative phosphorylation. II. Difference spectra," J. Biol. Chem. 217(1), 395-407 (1955).
[8] B. Chance, G. R. Williams, "A method for the localization of sites for oxidative phosphorylation," Nature 176(4475), 250-254 (1955).
[9] B. Chance, G. R. Williams, "A simple and rapid assay of oxidative phosphorylation," Nature 175(4469), 1120-1121 (1955).
[10] P. Kosterin, G. H. Kim, M. Muschol, A. L. Obaid, B. M. Salzberg, "Changes in FAD and NADH fluorescence in neurosecretory terminals are triggered by calcium entry and by ADP production," J. Membr. Biol. 208(2), 113-124 (2005).
[11] K. A. Kasischke, H. D. Vishwasrao, P. J. Fisher, W. R. Zipfel, W. W. Webb, "Neural activity triggers neuronal oxidative metabolism followed by astrocytic glycolysis," Science 305(5680), 99-103 (2004).
[12] K. C. Reinert, R. L. Dunbar, W. Gao. G. Chen, T. J. Ebner, "Flavoprotein autofluorescence imaging of neuronal activation in the cerebellar cortex in vivo," J. Neurophysiol. 92(1), 199-211 (2004).
[13] C. W. Shuttleworth, A. M. Brennan, J. A. Connor, "NAD(P)H fluorescence imaging of postsynaptic neuronal activation in murine hippocampal slices," J. Neurosci. 23(8), 3196-3208 (2003).
[14] K. Shibuki, R. Hishida, H. Murakami, M. Kudoh, T. Kawaguchi, M. Watanabe, S. Watanabe, T. Kouuchi, R. Tanaka, "Dynamic imaging of somatosensory cortical activity in the rat visualized by flavoprotein autofluorescence," J. Physiol. 549 (Pt 3), 919-927 (2003).
[15] H. Gainer, S. A. Wolfe, Jr., A. L. Obaid, B. M. Salzberg, "Action potentials and frequency-dependent secretion in the mouse neurohypophysis," Neuroendocrinology 43(5), 557-563 (1986).
[16] M. Muschol, B. M. Salzberg, "Dependence of transient and residual calcium dynamics on actionpotential patterning during neuropeptide secretion," J. Neurosci. 20(18), 6773-6780 (2000).
[17] A. L. Obaid, R. Flores, B. M. Salzberg, "Calcium channels that are required for secretion from intact nerve terminals of vertebrates are sensitive to omega-conotoxin and relatively insensitive to dihydropyridines. Optical studies with and without voltage-sensitive dyes," J. Gen. Physiol. 93(4), 715-729 (1989).
[18] T. D. Parsons, A. L. Obaid, B. M. Salzberg, "Aminoglycoside antibiotics block voltage-dependent calcium channels in intact vertebrate nerve terminals," J. Gen. Physiol. 99(4), 491-504 (1992).
[19] B. M. Salzberg, A. L. Obaid, H. Gainer, "Large and rapid changes in light scattering accompany secretion by nerve terminals in the mammalian neurohypophysis," J. Gen. Physiol. 86(3), 395-411 (1985).
[20] B. M. Salzberg, A. L. Obaid, D. M. Senseman, H. Gainer, "Optical recording of action potentials from vertebrate nerve terminals using potentiometric probes provides evidence for sodium and calcium components," Nature 306(5938), 36-40 (1983).
