George Feher
Publications: 1970-79 [home page]

44.      Electron Paramagnetic Resonance with Applications to Selected Problems in Biology, by G. Feher (presented as lectures at the Summer School in Les Houches, France, August, 1969), published as a Monograph by Gordon and Breach Science Publishers, New York, February, 1970.

45.      Electron paramagnetic resonance with applications to selected problems in biology; G. Feher; in Physical Problems in Biological Systems, edited by C. deWitt and J. Matricon (Gordon and Breach, Paris, 1970), pp. 251-365.

46.      Some chemical and physical properties of a bacterial reaction center particle and its primary photochemical reactants; G. Feher; Photochem. & Photobiol. 14, #3, (Supplement #1), 373-388 (September 1971). (Presented at the International Conference on the Photosynthetic Unit, Gatlinburg, Tennessee, May 18-21, 1970).

47.      Determination of the zero-field splitting of Fe³⁺ in heme proteins from the temperature dependence of the spin-lattice relaxation rate; C.P. Scholes, R.A. Isaacson, and G. Feher; Biochim. Biophys. Acta 244, #1, 206-210 (July 1971).

48.      Electron nuclear double resonance studies on heme proteins: determination of the interaction of Fe³⁺ with its ligand nitrogens in metmyoglobin; C.P. Scholes, R.A. Isaacson, and G. Feher; Biochim. Biophys. Acta 263, 448-452 (1972).

49.      Identification of an electron acceptor in reaction centers of Rhodopseudomonas sphaeroides by EPR spectroscopy; G. Feher, M.Y. Okamura, and J.D. McElroy; Biochim. Biophys. Acta 267, 222-226 (1972).

50.      Characterization of primary reactants in bacterial photosynthesis. I. Comparison of the light-induced EPR signal (g = 2.0026) with that of a bacteriochlorophyll radical; J.D. McElroy, G. Feher, and D.C. Mauzerall; Biochim. Biophys. Acta 267, 363-374 (1972).

51.      An ENDOR mechanism applicable to homogeneously broadened lines; G. Feher and R.A. Isaacson; Journal of Magnetic Resonance 7, #1, 111-114 (May 1972).

52.      Electron Nuclear Double Resonance (ENDOR) investigation on myoglobin and hemoglobin; G. Feher, R.A. Isaacson, C.P. Scholes, and R. Nagel; published in Symposial papers of the IV International Biophysics Congress, Session V, Vol. 2(II) pp. 703-721 (Pushchino, 1973). (Symposium held in Moscow, August, 1972).

53.      Electron Nuclear Double Resonance (ENDOR) investigation on myoglobin and hemoglobin; G. Feher, R.A. Isaacson, E.P. Scholes, and R. Nagel (presented at the Fifth International Conference on Magnetic Resonance in Biological Systems, New York, December 4-8, 1972); Annals of the New York Academy of Sciences 222, 86-101 (December 31, 1973).

54.      Study of the chemical denaturation of lysozyme by optical mixing spectroscopy; S.B. Dubin, G. Feher, and G.B. Benedek; Biochem. 12, #4, 714-719 (February 1973).

55.      Fluctuation spectroscopy: determination of chemical reaction kinetics from the frequency spectrum of fluctuations; G. Feher and M. Weissman; Proc. Natl. Acad. Scis. U. S. 70, #3, 870-875 (March 1973).

56.      Electron nuclear double resonance studies on heme proteins: interaction of the electron spin with the ⁵⁷Fe³⁺ nucleus in metmyoglobin and methemoglobin; C.P. Scholes, R.A. Isaacson, T. Yonetani, and G. Feher; Biochim. Biophys. Acta 322, 457-462 (1973).

57.      ENDOR experiments on chlorophyll and bacteriochlorophyll in vitro and in the photosynthetic unit; G. Feher, A.J. Hoff, R.A. Isaacson, and L.C. Ackerson (presented at the Conference on the biological Role of Porphyrins and Related Structures, New York, October 23-26, 1973); Ann. N. Y. Acad. Sci. (U.S.) 244, 239-259 (April, 1975).

58.      Characterization of primary reactants in bacterial photosynthesis II. Kinetic studies of the light-induced signal (g = 2.0026) and the optical absorbance changes at cryogenic temperatures; J.D. McElroy, D.C. Mauzerall, and G. Feher, Biochim. Biophys. Acta, 333, 261-278 (February 22, 1974).

59.      Characterization of reaction centers from photosynthetic bacteria. I. Subunit structure of the protein mediating the primary photochemistry in Rhodopseudomonas sphaeroides R-26; M. Y. Okamura, L. A. Steiner, and G. Feher; Biochem. 13, 1394-1403 (March 12, 1974).

60.      Characterization of reaction centers from photosynthetic bacteria. II. Amino acid composition of the reaction center protein and its subunits in Rhodopseudomonas sphaeroides R-26; L.A. Steiner, M.Y.. Okamura, A.D. Lopes, E. Moskowitz, and G. Feher; Biochem. 13, 1403-1410 (March 12, 1974).

61.      On the question of the primary acceptor in bacterial photosynthesis: manganese substituting for iron in reaction centers of Rhodopseudomonas sphaeroides R-26; G. Feher, R.A. Isaacson, J.D. McElroy, L.C. Ackerson, and M.Y. Okamura; Biochim. Biophys. Acta 368, #1, 135-139 (October 18, 1974).

62.      Simple schemes for measuring autocorrelation functions; Z. Kam, H.B. Shore, and G. Feher; Review of Scientific Instruments 46, #3, 269-277 (March 1975).

63.      Observation of energy (thermal) fluctuations in an electrolytic solution; M. Weissman and G. Feher; J. Chem. Phys. 63, #1, 586-587 (July 1, 1975).

64.      The primary acceptor in bacterial photosynthesis: The obligatory role of ubiquinone in photoactive reaction centers of Rhodopseudomonas sphaeroides; M.Y. Okamura, R.A. Isaacson, and G. Feher; Proc. Natl. Acad. Sci. 72, #9, 3491-3495, (September, 1975).

65.      Determination of molecular weights by fluctuation spectroscopy; application to DNA; M. Weissman, H. Schindler, and G. Feher; Proc. Natl. Acad. Sci. 73, #8, 2776-2780 (August 1976).

66.      Branched biomolecular lipid membranes; H. Schindler and G. Feher; Biophysical Journal 16, #9, 1109-1113 (September 1976).

67.      Reaction centers from Rhodopseudomonas sphaeroides; G. Feher and M.Y. Okamura; Brookhaven Symposia in Biology: No. 28, on “Chlorophyll-Proteins, Reaction Centers, and Photosynthetic Membranes”, 1976, pp. 183-194 (Symp. June 7-9, 1976).

68.      Fluctuation spectroscopy; by George Feher; review article in “Emerging Techniques” section of TRENDS IN BIOCHEMICAL SCIENCES 3, #5, N111-N113 (May 1978).

69.      On the crystallization of proteins; Z. Kam, H. B. Shore, and G. Feher; J. Mol. Biol. 123, 539-555 (1978).

70.      Chemical composition and properties of reaction centers; George Feher and M.Y. Okamura; in The Photosynthetic Bacteria, edited by R.K. Clayton and W.R. Sistrom (Plenum Press, N.Y.), Chapter 19, pp. 349-386 (1978).

71.      Magnetic interactions and electron transfer kinetics of the reduced intermediate acceptor in reaction centers (RCs) of Rhodopseudomonas sphaeroides R-26. Evidence for thermally induced tunneling; M.Y. Okamura, D.R. Fredkin, R.A. Isaacson, and G. Feher; in Tunneling in Biological Systems (Proc. of the Tunneling Conference, 1977), B. Chance, D. DeVault, H. Frauenfelder, R. A. Marcus, J. R. Schrieffer, and Norman Sutin, eds. (Academic Press, N.Y.), pp. 729-743 (1979).

72.      Spectroscopic and kinetic properties of the transient intermediate acceptor in reaction centers of Rhodopseudomonas sphaeroides; M.Y. Okamura, R.A. Isaacson, and G. Feher; Biochim. Biophys. Acta 546, #3, 394-417 (June 5, 1979).

73.      Localization of the primary quinone binding site in reaction centers from Rhodopseudomonas sphaeroides R-26 by photoaffinity labeling; T.D. Marinetti, M.Y. Okamura, and G. Feher; Biochemistry 18, 3126-3133 (1979).

74.      Experimental verification of a theory of 1/f noise in a model system; M.B. Weissman, R.A. Isaacson, and G. Feher; Phys. Rev. Lett.43, #11, 733-736 (September 10, 1979).