Chemical electric field effects in biological macromolecules

Neumann E (1986)
Progress in Biophysics and Molecular Biology 47(3): 197-231.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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DOI
URN
urn:nbn:de:0070-pub-17745169
Autor*in
Neumann, EberhardUniBi
Einrichtung
Fakultät für Chemie
Stichworte
Biophysics; Molecular biology; Biochemistry
Erscheinungsjahr
1986
Zeitschriftentitel
Progress in Biophysics and Molecular Biology
Band
47
Ausgabe
3
Seite(n)
197-231
ISSN
0079-6107
Page URI
https://pub.uni-bielefeld.de/record/1774516

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Neumann E. Chemical electric field effects in biological macromolecules. Progress in Biophysics and Molecular Biology. 1986;47(3):197-231.
Neumann, E. (1986). Chemical electric field effects in biological macromolecules. Progress in Biophysics and Molecular Biology, 47(3), 197-231. https://doi.org/10.1016/0079-6107(86)90014-3
Neumann, Eberhard. 1986. “Chemical electric field effects in biological macromolecules”. Progress in Biophysics and Molecular Biology 47 (3): 197-231.
Neumann, E. (1986). Chemical electric field effects in biological macromolecules. Progress in Biophysics and Molecular Biology 47, 197-231.
Neumann, E., 1986. Chemical electric field effects in biological macromolecules. Progress in Biophysics and Molecular Biology, 47(3), p 197-231.
E. Neumann, “Chemical electric field effects in biological macromolecules”, Progress in Biophysics and Molecular Biology, vol. 47, 1986, pp. 197-231.
Neumann, E.: Chemical electric field effects in biological macromolecules. Progress in Biophysics and Molecular Biology. 47, 197-231 (1986).
Neumann, Eberhard. “Chemical electric field effects in biological macromolecules”. Progress in Biophysics and Molecular Biology 47.3 (1986): 197-231.
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22 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Electrochemical sensing of tumor suppressor protein p53-deoxyribonucleic acid complex stability at an electrified interface.
Paleček E, Cernocká H, Ostatná V, Navrátilová L, Brázdová M., Anal Chim Acta 828(), 2014
PMID: 24845809
Surface-enhanced vibrational spectroscopy for probing transient interactions of proteins with biomimetic interfaces: electric field effects on structure, dynamics and function of cytochrome c.
Ly HK, Sezer M, Wisitruangsakul N, Feng JJ, Kranich A, Millo D, Weidinger IM, Zebger I, Murgida DH, Hildebrandt P., FEBS J 278(9), 2011
PMID: 21352495
Impact of PEF treatment on quality parameters of white asparagus (Asparagus officinalis L.)
Janositz A, Semrau J, Knorr D., Innovative food science & emerging technologies : IFSET : the official scientific journal of the European Federation of Food Science and Technology. 12(3), 2011
PMID: IND44599990
Ionic strength-dependent structural transition of proteins at electrode surfaces.
Palecek E, Ostatná V., Chem Commun (Camb) (13), 2009
PMID: 19294262
Long distance electron transfer in cytochrome c oxidase immobilised on electrodes. A surface enhanced resonance Raman spectroscopic study.
Hrabakova J, Ataka K, Heberle J, Hildebrandt P, Murgida DH., Phys Chem Chem Phys 8(6), 2006
PMID: 16482317
Heme coordination states of unfolded ferrous cytochrome C.
Droghetti E, Oellerich S, Hildebrandt P, Smulevich G., Biophys J 91(8), 2006
PMID: 16877519
Time-resolved methods in Biophysics. 1. A novel pump and probe surface-enhanced resonance Raman approach for studying biological photoreceptors.
Naumann H, Klare JP, Engelhard M, Hildebrandt P, Murgida DH., Photochem Photobiol Sci 5(12), 2006
PMID: 17136274
Cholesterol reduces membrane electroporation and electric deformation of small bilayer vesicles.
Kakorin S, Brinkmann U, Neumann E., Biophys Chem 117(2), 2005
PMID: 15923075
Inactivation and conformational change of horseradish peroxidase induced by pulsed electric field.
Zhong K, Hu X, Zhao G, Chen F, Liao X., Food Chem 92(3), 2005
PMID: IND43775332
Redox and conformational equilibria and dynamics of cytochrome c at high electric fields.
Wackerbarth H, Hildebrandt P., Chemphyschem 4(7), 2003
PMID: 12901303
Perspectives for microelectrode arrays for biosensing and membrane electroporation.
Neumann E, Tönsing K, Siemens P., Bioelectrochemistry 51(2), 2000
PMID: 10910160
Gerhard schwarz: scientist and colleague
Neuman E, Winterhalter M., Biophys Chem 85(2-3), 2000
PMID: 10961499
Electroporation of curved lipid membranes in ionic strength gradients
Neumann E, Kakorin S., Biophys Chem 85(2-3), 2000
PMID: 10961510
Electroporative fast pore-flickering of the annexin V-lipid surface complex, a novel gating concept for ion transport.
Neumann E, Siemens PM, Toensing K., Biophys Chem 86(2-3), 2000
PMID: 11026685
Non-linearity of molecular transport through human skin due to electric stimulus.
Pliquett UF, Gusbeth CA, Weaver JC., J Control Release 68(3), 2000
PMID: 10974391
Digression on chemical electromagnetic field effects in membrane signal transduction--cooperativity paradigm of the acetylcholine receptor.
Neumann E., Bioelectrochemistry 52(1), 2000
PMID: 11059576
Fundamentals of electroporative delivery of drugs and genes.
Neumann E, Kakorin S, Toensing K., Bioelectrochem Bioenerg 48(1), 1999
PMID: 10228565
Inactivation of papain by pulsed electric fields in a continuous system.
Yeom HW, Zhang QH, Dunne CP., Food Chem 67(1), 1999
PMID: IND22052812
Electric fields at the plasma membrane level: a neglected element in the mechanisms of cell signalling.
Olivotto M, Arcangeli A, Carlà M, Wanke E., Bioessays 18(6), 1996
PMID: 8787537
Detection of a large cation-selective channel in nuclear envelopes of avian erythrocytes.
Matzke AJ, Weiger TM, Matzke MA., FEBS Lett 271(1-2), 1990
PMID: 1699797
Effects of oscillations and energy-driven fluctuations on the dynamics of enzyme catalysis and free-energy transduction.
Astumian RD, Chock PB, Tsong TY, Westerhoff HV., Phys Rev A Gen Phys 39(12), 1989
PMID: 9901243
Electroconformational coupling and membrane protein function.
Tsong TY, Astumian RD., Prog Biophys Mol Biol 50(1), 1987
PMID: 3329744

66 References

Daten bereitgestellt von Europe PubMed Central.

Dielektrische Absorption als Folge chemischer Reaktionen
Bergmann, Ber. Bunsenges. Physik. Chem. 67(), 1963

Böttcher, 1973

Cole, 1968
Electric field methods
DeMaeyer, Meth. Enzymol. 16(), 1969
Electric field methods
DeMaeyer, 1974
Kinetic models suggest bimolecular reaction steps in axonal Na+ channel gating
Dorogi, 1980
Anisotropy effects in temperature-jump relaxation. Studies on solutions containing linear polymers
Dourlent, J. Am. Chem. Soc. 96(), 1974
Relaxation methods
Eigen, 1963
Ein Orientierungs-Feldeffekt der elektrischen Leitung in Polyelektrolytlösungen
Eigen, Z. Physik. Chem. N.F. 4(), 1955
Orientation field effect of polyelectrolytes in solution
Eigen, J. Coll. Sci. 12(), 1957
Structure and kinetic properties of polyelectrolytes in solution, determined from relaxation phenomena electric fields
Eigen, 1962
Polyelectrolyte “catalysis” on the interionic reactions between similarly charged polyvalent ions
Enokida, Macromolecules 13(), 1980

Fredericq, 1973

Fröhlich, 1958

Grant, 1978

Guggenheim, 1967
Fluorimetric kinetic techniques: Chemical relaxation and stopped-flow
Jovin, 1976
Electric birefringence of poly-L-lysine hydrobromide in methanol-water mixtures and helix-coil transition induced by high electric fields.
Kikuchi K, Yoshioka K., Biopolymers 12(12), 1973
PMID: 4782546
Effect of saturation of the ion atmosphere polarization on the orientation factor of the electric birefringence of rodlike polyelectrolytes
Kikuchi, Biopolymers 15(), 1976

Kirkwood, 1961
Anisotropie der Lichtabsorption gelöster Moleküle im elektrischen Feld.
Kuhn, Z. physik. Chem. B 45(), 1939

Nachmansohn, 1975
Molecular hysteresis and its cybernetic significance.
Neumann TE., Angew. Chem. Int. Ed. Engl. 12(5), 1973
PMID: 4200277
Principles of electric field effects in chemical and biological systems
Neumann, 1981
Dynamics of molecular recognition in enzyme catalyzed reactions
Neumann, 1981
Elementary analysis of chemical electric field effects in biological macromolecules
Neumann, 1986
Dynamic properties of isolated acetylcholine receptor protein. Kinetics of the binding of acetylcholine and Ca2+ ions
Neumann, 1976
Cell fusion induced by electric impulses applied to Dictyostelium
Neumann, Naturwissenschaften 67(), 1980
Long-lived conformation changes induced by electric impulses in biopolymers
Neumann, 1972
Polyelectrolyte field effects
Neumann, Bioelectrochem. Bioenerg. 8(), 1981
Permeability changes induced by electric impulses in vesicular membranes.
Neumann E, Rosenheck K., J. Membr. Biol. 10(3), 1972
PMID: 4667921
Gene transfer into mouse lyoma cells by electroporation in high electric fields.
Neumann E, Schaefer-Ridder M, Wang Y, Hofschneider PH., EMBO J. 1(7), 1982
PMID: 6329708
Counterion flow coupling in polyelectrolytes and ion pairs in MgSO4 and polyionic membrane proteins
Neumann, 1983
The ion-pair concept in macromolecular dynamics
Neumann, Bioelectrochem. Bioenerg. 13(), 1984
Effective charge on acetylcholinesterase active sites determined from the ionic strength dependence of association rate constants with cationic ligands.
Nolte HJ, Rosenberry TL, Neumann E., Biochemistry 19(16), 1980
PMID: 7407068
Kinetics and mechanism for the conformational transition in p-guanidinobenzoate bovine trypsinogen induced by the isoleucine-valine dipeptide.
Nolte HJ, Neumann E., Biophys. Chem. 10(3-4), 1979
PMID: 575297
Electric properties of macromolecules. I. A study of electric polarization in Polyelectrolyte solution by means of electric birefringence
O'Konski, J. Am. Chem. Soc. 79(), 1957
Electric properties of macromolecules. IV. Determination of electric and optical parameters from saturation of electric birefringence in solutions
O'Konski, J. Phys. Chem. 63(), 1959
Structural transition produced by electric fields in aqueous sodium deoxyribonucleate.
O'Konski CT, Stellwagen NC., Biophys. J. 5(4), 1965
PMID: 5861709
Deviations from Ohm's law in weak electrolytes
Onsager, J. Chem. Phys. 2(), 1934
Electric moments of molecules in liquids
Onsager, J. Am. Chem. Soc. 58(), 1936
Zur Theorie der Strömungsdoppelbrechung von Kolloiden und groβen Molekülen in Lösung
Peterlin, Z. Physik 112(), 1939
Über die Bestimmung der Gröβe und Form sowie der elektrischen, optischen und magnetischen Anisotropie von submikroskopischen Teilchen mit Hilfe der künstlichen Doppelbrechung und der inneren Reibung
Peterlin, Z. Physik 112(), 1939
A conformation change of single stranded polyriboadenylate induced by an electric field.
Porschke D., Nucleic Acids Res. 1(11), 1974
PMID: 10793715
Threshold effects observed in conformation changes induced by electric fields.
Porschke D., Biopolymers 15(10), 1976
PMID: 963236
Effects of electric fields on biopolymers
Pörschke, A. Rev. Phys. Chem. 36(), 1985
Conformation changes in rRNA induced by electric impulses.
Revzin A, Neumann E., Biophys. Chem. 2(2), 1974
PMID: 4611518
Ionenassoziation in einfachen Elektrolyten und biologischen Polyelektrolyten
Schallreuter, PhD Thesis, University of Konstanz (), 1982
ATP synthesis in chloroplasts induced by a transmembrane electric potential difference as a function of the proton concentration
Schlodder, FEBS Lett. 138(), 1982
Schnellkalorimetrische Methode zur Messung des Dissoziations-Feldeffektes
Schödel, Z. Physik. Chem. N.F. 15(), 1958
On dielectric relaxation due to chemical rate processes
Schwarz, J. Phys. Chem. 71(), 1967
Kinetic properties and the electric field effect of the helix-coil transition of poly(gamma-benzyl L-glutamate) determined from dielectric relaxation measurements.
Schwarz G, Seelig J., Biopolymers 6(9), 1968
PMID: 5669466
Colloid Electro-optics. Eleclrically induced optical phenomena in disperse systemd
Stoylov, Adv. Coll. Interf. Sci. 3(), 1971
Stochastic model for electric field-induced membrane pores. Electroporation.
Sugar IP, Neumann E., Biophys. Chem. 19(3), 1984
PMID: 6722274

Tasaki, 1982
Electric field induced transient pores in phospholipid bilayer vesicles.
Teissie J, Tsong TY., Biochemistry 20(6), 1981
PMID: 6261800
The reversing pulse technique in electric birefringence
Tinoco, J. Phys. Chem. 63(), 1959
Electro-optical properties of synthetic polyelectrolytes
Tricot, 1976
Structural changes in bacteriorhodopsin induced by electric impulses
Tsuji, Int. J. Biol. Macromol. 3(), 1981
Electric-field induced pK-changes in bacteriorhodopsin.
Tsuji K, Neumann E., FEBS Lett. 128(2), 1981
PMID: 6266872
Conformational flexibility of membrane proteins in electric fields. I. Ultraviolet absorbance and light scattering of bacteriorhodopsin in purple membranes.
Tsuji K, Neumann E., Biophys. Chem. 17(2), 1983
PMID: 17000437
The art of titration. From classical end points to modern differential and dynamic analysis
Winkler-Oswatitsch, Angew. Chem. Int. Ed. 18(), 1979
Membrane-bound ATP synthesis generated by an external electrical field.
Witt HT, Schlodder E, Graber P., FEBS Lett. 69(1), 1976
PMID: 992038
A practical guide to the temperature-jump method for measuring the rate of fast reactions
Yapel, 1971
Helix-coil transition of poly-α, l-glutamic acid in aqueous solution studied by the dissociation field effect relaxation method
Yasunaga, Chem. Lett. (Jap.) (), 1973
Zellen mit manipulierten Funktionen: Neue Perspektiven für Zellbiologie, Medizin und Technik
Zimmermann, Angew. Chem. 93(), 1981
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