The malonyl gramicidin channel: NMR-derived rate constants and comparison of calculated and experimental single-channel currents
Tóm tắt
Từ khóa
Tài liệu tham khảo
Anderson, O.S., Procopio, J. 1980. Ion movement through gramicidin A channels.Acta Physiol. Scand. (Suppl.) (in press)
Backer, H.J., Lolkema, J. 1938. Esters of methanetricarboxylic acid.Rec. Trav. Chim. Pays-Bas 57:1234
Bamberg, E., Apell, H.J., Alpes, H. 1977. Structure of the gramicidin A channel: Discrimination between the πL,D and the β helix by electrical measurements with lipid bilayer membranes.Proc. Nat. Acad. Sci. USA. 74:2402
Bamberg, E., Janko, K. 1977. The action of a carbon-suboxide dimerized gramicidin A on lipid bilayer membranes.Biochim. Biophys. Acta 465:486
Bamberg, E., Kolb, H.-A., Läuger, P. 1976. Ion transport through the gramicidin A channel.In: The Structural Basis of Membrane Function. Y. Hatefi and L. Djavadi-Ohaniance, editors. p. 143. Academic Press, New York
Bamberg, E., Läuger, P. 1974. Temperature-dependent properties of gramicidin A channels.Biochim. Biophys. Acta 367:127
Bamberg, E., Läuger, P. 1977. Blocking of the gramicidin channel by divalent cations.J. Membrane Biol. 35:351
Binsch, G. 1968. The study of intramolecular rate processes by dynamic nuclear magnetic resonance.In: Topics in Stereochemistry. E.L. Eliel and N.L. Allinger, editors. p. 97. Wiley, New York
Bradley, R.J., Romine, W.O., Long, M.M., Ohnishi, T., Jacobs, M.A., Urry, D.W. 1977. Synthetic peptide K+ Carrier with Ca2+ inhibition.Arch. Biochem. Biophys. 178:468
Bradley, R.J., Urry, D.W., Okamoto, K., Rapaka, R.S. 1978. Channel structures of gramicidin: Characterization of succinyl derivatives.Science 200:435
Bull, T.E., 1972. Nuclear magnetic relaxation of spin-3/2 nuclei involved in chemical exchange.J. Mag. Res. 8:344
Bull, T.E., Andrasko, J., Chiancone, E., Forsén, A., 1973. Pulsed nuclear magnetic resonance studies on23Na,7Li and35Cl binding to human oxy- and carbon monooxyhalmoglobin.J. Mol. Biol. 73:251
Chang, D.C., Woessner, D.E. 1978. Spin-echo study of23Na relaxation in skeletal muscle. Evidence of sodium ion binding inside a biological cell.J. Mag. Res. 30:185
Cornélis, A., Laszlo, P. 1979. Sodium binding sites of gramicidin A: Sodium-23 nuclear magnetic resonance study.Biochemistry 10:2004
Delville, A., Detellier, C., Laszlo, P. 1979. Determination of the correlation time for a slowly reorienting spin-3/2 nucleus: Binding of Na+ with the 5′-GMP supramolecular assembly.J. Mag. Res. 34:301
Eisenman, G., Sandblom, J., Neher, E. 1977. Ionic selectivity, saturation, binding and block in the gramicidin A channel: A preliminary report.In: Metal-Ligand Interactions in Organic Chemistry and Biochemistry. B. Pullman and N. Goldblum, editors. Part 2, p. 1. D. Reidel, Dordrecht-Holland
Eisenman, G., Sandblom, J., Neher, E. 1978. Interactions in cation permeation through the gramicidin channel Cs, Rb, K, Na, Li, Tl, H and effects of anion binding.Biophys. J. 22:307
Eyring, H., Urry D.W. 1963. The theory of absolute reaction rates in solution.Ber. Bunsenges. Phys. Chem. 67:731
Eyring, H., Urry, D.W. 1965. Thermodynamics and chemical kinetics.In: Theoretical and Mathematical Biology. H.J. Morowitz and T.H. Waterman, editors. p. 57. Blaisdell, New York
Feeney, J., Batchelor, J.G., Albrand, J.P., Roberts, G.C.K. 1979. The effects of intermediate exchange processes on the estimation of equilibrium constants by NMR.J. Magn. Reson. 33:519
Hägglund, J., Enos, B., Eisenman, G. 1979. Multi-site, multibarrier, multi-occupancy models for the electrical behavior of single filing channels like those of gramicidin.Brain Res. Bull. 4:154
Hladky, S.B., Urban, B.W., Haydon, D.A. 1979. Ion movements in pores formed by gramicidin A.In: Membrane Transport Processes. C.F. Stevens and R.W. Tsien, editors. Vol. 3, p. 89. Raven Press, New York
Hubbard, P.S. 1970. Nonexponential nuclear magnetic relaxation by quadrupole interactions.J. Chem. Phys. 53:985
Ishii, S., Witkop, B. 1964. Gramicidin A. II. Preparation and properties of “Seco-Gramicidin A”.J. Am. Chem. Soc. 86:1848
James, T.L., Nogle, J.H. 1969.23Na nuclear magnetic resonance relaxation studies of sodium interaction with soluble RNA.Proc. Nat. Acad. Sci. USA 62:644
Johnson, F.H., Eyring, H., Polissar, M.I. 1954. Potential barriers in diffusion.In: The Kinetic Basis of Molecular Biology. Chapter 14. John Wiley & Sons, New York
Koeppe, R.E., II, Berg, J.M., Hodgson, K.O., Stryer, L. 1979. Gramicidin A crystals contain two cation binding sites per channel.Nature (London) 279:723
Kolb, H.-A., Läuger, P., Bamberg, E. 1975. Correlation analysis of electrical noise in lipid bilayer membranes: Kinetics of gramicidin A channels.J. Membrane Biol. 20:133
McBride, D., Szabo, G. 1978. Influence of double-layer and dipolar surface potentials on ionic conductance of gramicidin channels.Biophys. J. 21:A25
Mueller, P., Rudin, D.O. 1967. Development of K+−Na+ discrimination in experimental biomolecular lipid membranes by macrocyclic antibiotics.Biochem. Biophys. Res. Commun. 26:398
Neher, E. 1975. Ionic specificity of the gramicidin channel and the thallous ion.Biochim. Biophys. Acta 401:540
Norne, J.E., Gustabsson, H., Forsen, S., Chiancone, E., Kuiper, H.A., Antonini, E. 1979. Sodium and calcium binding to panulirus interruptus hemocyanin as studied by23Na nuclear magnetic resonance.Eur. J. Biochem. 98:591
Parihar, D.P., Sharma, S.P., Verma, K.K. 1967. Studies of some active methylene compounds by thin-layer chromatography.Chromatog. 27:276
Parlin, B., Eyring, H. 1954. Membrane permeability and electrical potential.In: Ion Transport Across Membranes. H.T. Clarke, editor, p. 103. Academic Press, New York
Pople, J.A., Schneider, W.G., Bernstein, H.J. 1959. High resolution nuclear magnetic resonance.In: High-Resolution Nuclear Magnetic Resonance, p. 218. McGraw-Hill, New York
Sandblom, J., Eisenman, G., Neher, E. 1977. Ion selectivity, saturation and block in gramicidin A channels: I. Theory for the electrical properties of ion selective channels having two paris of binding sites and multiple conductance states.J. Membrane Biol. 31:383
Sarges, R., Witkop, B. 1964. Gramicidin A. IV. Primary sequence of valine and isoleucine gramicidin A.J. Am. Chem. Soc. 86:1862
Urban, B.W., Hladky, S.B., Haydon, D.A. 1978. The kinetics of ion movements in the gramicidin channel.Fed. Proc. 37:2628
Urry, D.W. 1971. The gramicidin A transmembrane channel: A proposed π(L,D) helix.Proc. Nat. Acad. Sci. USA 68:672
Urry, D.W. 1973. Polypeptide conformation and biological function β-helices (πL,D-helices) as permselective transmembrane channels.In: Conformation of Biological Molecules and Polymers — The Jerusalem Symposia on Quantum Chemistry and Biochemistry. V, p. 723. Israel Academy of Sciences, Jerusalem
Urry, D.W. 1978. Basic aspects of calcium chemistry and membrane interaction: On the messenger role of calciumAnn. N.Y. Acad. Sci. 307:3
Urry, D.W., Goodall, M.C., Glickson, J.D., Mayers, D.F. 1971. The gramicidin A transmembrane channel: Characteristics of head to head dimerized π(L,D) helices.Proc. Nat. Acad. Sci. USA 68:1907
Urry, D.W., Long, M.M., Jacobs, M., Harris, R.D. 1975. Conformation and molecular mechanisms of carriers and channels.Ann. NY Acad. Sci. 264:203
Urry, D.W., Spisni, A., Khaled, M.A. 1979a. Characterization of micellar-packaged gramicidin A channels.Biochem. Biophys. Res. Commun. 88(3):940
Urry, D.W., Spisni, A., Khaled, M.A., Long, M.M., Masotti, L. 1979b. Transmembrane channels and their characterization in phospholipid structures.Int. J. Quantum Chem.: Quantum Biology Symp. N.6:289
Urry, D.W., Venkatachalam, C.M., Spisni, A., Läuger, P., Khaled, M.A. 1980. Rate theory calculation of gramicidin single channel currents using NMR-derived rate constants.Proc. Nat. Acad. Sci. USA 77:2028
Weinstein, S., Wallace, B., Blout, E.R., Morrow, J.S., Veatch, W. 1979. Conformation of gramicidin A channel in phospholipid vesicles: A13C and19F nuclear magnetic resonance study.Proc. Nat. Acad. Sci. USA 76:4230