Table Of ContentBiophysical
Chemistry
Biophysical Chemistry 52 (1994) 287-288
Author Index to Volume 52 (1994)
Anderson, G.J., Haris, P.1., Chapman, D. and Drake, A.F. Go, N., see Kitao, A. (52) 107
The conformational equilibria of a renin inhibitor peptide Gonnelli, M., see Cioni, P. (52) 25
in solution (52) 173 Grasso, D., see Milardi, D. (52) 183
Gruenwedel, D.W.
Begg, G.E., Ralston, G.B. and Morris, M.B. Effect of Hg(II) on the spectroscopic properties of
A proton nuclear magnetic resonance study of the mobile poly[d(A-T) - d(A-T)] and poly{d(A) - d(T)] and their con-
regions of human erythroid spectrin (52) 63 stituent subunits (deoxyadenosine and thymidine mono-
Bell, J.A., see Gerstner, J.A. (52) 97 mers and dimers) (52) 115
Beltramini, M., see Mazzini, A. (52) 145 Gryczynski, I., Johnson, M.L. and Lakowicz, J.R.
Blein, J.-P., see Mikes, V. (52) 259 Analysis of anisotropy decays in terms of correlation time
Briki, F. and Genest, D. distributions, measured by frequency-domain fluorometry
Canonical analysis of correlated atomic motions in DNA (52) 1
from molecular dynamics simulation (52) 35 Gutheil, W.G.
Reformulation of thermodynamic systems with aggrega-
Cavatorta, P., see Mazzini, A. (52) 145 tion and theoretical methods for the analysis of ligand
Chapman, D., see Anderson, G.J. (52) 173 binding in proteins with monomer-—multimer equilibria
Chung, S.-H., see Kuyucak, S. (52) 15 (52) 83
Cioni, P., Gabellieri, E., Gonnelli, M. and Strambiri, G.B.
Heterogeneity of protein conformation in solution from Haris, P.I., see Anderson, G.J. (52) 173
the lifetime of tryptophan phosphorescence (52) 25 Hayward, S., see Kitao, A. (52) 107
Clendenning, J.B. and Schurr, J.M.
Henniker, A. and Ralston, G.B.
A model for the binding of E. coli single-strand binding
Reinvestigation of the thermodynamics of spectrin self-as-
protein to supercoiled DNA (52) 227
sociation (52) 251
Clendenning, J.B., Naimushin, A.N., Fujimoto, B.S., Stewart,
Hinz, H.-J., Vogl, T. and Meyer, R.
D.W. and Schurr, J.M.
An alternative interpretation of the heat capacity changes
Effect of ethidium binding and superhelix density on the associated with protein unfolding (52) 275
supercoiling free energy and torsion and bending con-
Hof, M., Hutterer, R., Pérez, N., Ruf, H. and Schneider, F.W.
stants of p308 DNA (52) 191
Influence of vesicle curvature on fluorescence relaxation
Clendenning, J.B., see Naimushin, A.N. (52) 219 kinetics of fluorophores (52) 165
Collange, E., see Mikes, V. (52) 259 Hutterer, R., see Hof, M. (52) 165
Cramer, S.M., see Gerstner, J.A. (52) 97
Imasato, H., see Yushmanov, V.E. (52) 157
Di Muro, P., see Mazzini, A. (52) 145
Drake, A.F., see Anderson, G.J. (52) 173
Johnson, M.L., see Gryczynski, I. (52) 1
Favilla, R., see Mazzini, A. (52) 145
Fujimoto, B.S., see Clendenning, J.B. (52) 191 Kim, U.-S., see Naimushin, A.N. (52) 219
Fujimoto, B.S., see Naimushin, A.N. (52) 219 Kitao, A., Hayward, S. and Go, N.
Comparison of normal mode analyses on a small globular
Gabellieri, E., see Cioni, P. (52) 25 protein in dihedral angle space and Cartesian coordinate
Genest, D., see Briki, F. (52) 35 space (52) 107
Gerstner, J.A., Bell, J.A. and Cramer, S.M. Kuyucak, S. and Chung, S.-H.
Gibbs free energy of adsorption for biomolecules in ion- Temperature dependence of conductivity in electrolyte
exchange systems (52) 97 solutions and ionic channels of biological membranes (52)
Gill, S.C., see Sijpkes, A.H. (52) 75 15
288 Author Index / Biophysical Chemistry 52 (1994) 287-288
Lakowicz, J.R., see Gryczynski, I. (52) 1 Ralston, G.B., see Begg, G.E. (52) 63
La Rosa, C., see Milardi, D. (52) 183 Ralston, G.B., see Henniker, A. (52) 251
Lavernet, S., see Mikes, V. (52) 259 Ruf, H., see Hof, M. (52) 165
Ruggiero, A.C., see Yushmanov, V.E. (52) 157
Mazzini, A., Beltramini, M., Favilla, R., Cavatorta, P., Di
Muro, P. and Salvato, B.
Salvato, B., see Mazzini, A. (52) 145
An oxygenation-sensitive dye binding to Carcinus maenas
Schneider, F.W., see Hof, M. (52) 165
hemocyanin (52) 145
Schurr, J.M., see Clendenning, J.B. (52) 191
Meyer, R., see Hinz, H.-J. (52) 275
Schurr, J.M., see Clendenning, J.B. (52) 227
Mikes, V., Lavernet, S., Milat, M.-L., Collange, E., Paris, M.
Schurr, J.M., see Naimushin, A.N. (52) 219
and Blein, J.-P.
Sijpkes, A.H., Van de Kleut, G.J. and Gill, S.C.
Cercospora beticola toxins. Part VI: preliminary studies of
The solubilities of five cyclic dipeptides in water and in
protonation and complexation equilibria (52) 259
aqueous urea at 298.15 K: a quantitative model for the
Milardi, D., La Rosa, C. and Grasso, D.
denaturation of proteins in aqueous urea solutions (52) 75
Extended theoretical analysis of irreversible protein ther-
SjOberg, B. and Mortensen, K.
mal unfolding (52) 183
Interparticle interactions and structure in nonideal solu-
Milat, M.-L., see Mikes, V. (52) 259
tions of human serum albumin studied by small-angle
Morris, M.B., see Begg, G.E. (52) 63
neutron scattering and Monte Carlo simulation (52) 131
Mortensen, K., see Sjéberg, B. (52) 131
Song, L., see Naimushin, A.N. (52) 219
Spassova, M., Tsoneva, I., Petrov, A.G., Petkova, J.I. and
Naimushin, A.N., Clendenning, J.B., Kim, U.-S., Song, L.,
Neumann, E.
Fujimoto, B.S., Stewart, D.W. and Schurr, J.M.
Dip patch clamp currents suggest electrodiffusive trans-
Effect of ethidium binding and superhelix density on the
apparent supercoiling free energy and torsion constant of port of the polyelectrolyte DNA through lipid bilayers (52)
267
pBR322 DNA (52) 219
Naimushin, A.N., see Clendenning, J.B. (52) 191 Stewart, D.W., see Clendenning, J.B. (52) 191
Stewart, D.W., see Naimushin, A.N. (52) 219
Neumann, E., see Spassova, M. (52) 267
Strambini, G.B., see Cioni, P. (52) 25
Nishiyama, N.
Spatial phase pattern in one-dimensional arrays of limit
cycle oscillators with discrete coupling (52) 139 Tabak, M., see Yushmanov, V.E. (52) 157
Nygren, H. Tsoneva, I., see Spassova, M. (52) 267
Kinetics of antibody binding to surface-immobilized anti-
gen. Analysis of data and an empiric model (52) 45 Van de Kleut, G.J., see Sijpkes, A.H. (52) 75
Vogl, T., see Hinz, H.-J. (52) 275
Paris, M., see Mikes, V. (52) 259
Pérez, N., see Hof, M. (52) 165
Perussi, J.R., see Yushmanov, V.E. (52) 157 Yap, W.T.
Petkova, J.I., see Spassova, M. (52) 267 Analysis of biochemical reactions in equilibrium: Hydroly-
sis of penicillin and ampicillin (52) 125
Petrov, A.G., see Spassova, M. (52) 267
Yushmanov, V.E., Perussi, J.R., Imasato, H., Ruggiero, A.C.
Ralston, G.B. and Tabak, M.
The concentration dependence of the activity coefficient Ionization and binding equilibria of papaverine in ionic
of the human spectrin heterodimer. A quantitative test of micelles studied by 'H NMR and optical absorption spec-
the Adams—Fujita approximation (52) 51 troscopy (52) 157
Biophysical
Chemistry
BAT dt
ELSEVIER
Biophysical Chemistry 52 (1994) 289-293
Subject Index to Volume 52 (1994)
Activity coefficient Bovine pancreatic trypsin inhibitor
Self-association; Excluded volume; Second virial coefficient; Normal mode analysis; Dihedral angle space; Cartesian coor-
Oligomers; Sedimentation equilibrium; Ultracentrifuge (Ral- dinate space; Important conformational subspace (Kitao, A.
ston, G.B. (52) 51) (52) 107)
Ampicillin pBR322 DNA
Binding polynomials; Reference reaction; Equilibrium con- Ethidium binding; Superhelix density (Naimushin, A.N. (52)
stant; Penicillin; Hydrolysis (Yap, W.T. (52) 125) 219)
Anisotropy Canonical analysis
Fluorescence; Frequency domain; Fluorometry; Correlation Computer Simulation; Correlated motions; DNA flexibility;
time distribution (Gryczynski, I. (52) 1) Molecular dynamics (Briki, F. (52) 35)
Antibody binding Cartesian coordinate space
Kinetics; Antigen (Nygren, H. (52) 45) Normal mode analysis; Dihedral angle space; Bovine pancre-
atic trypsin inhibitor; Important conformational subspace
Antigen (Kitao, A. (52) 107)
Kinetics; Antibody binding (Nygren, H. (52) 45)
Circular dichroism
Apparent equilibrium constant Renin inhibitor peptide; Conformation; Fourier Transform
Cyclic dipeptide; Aqueous urea solution; Solubility; Protein infrared; Nuclear magnetic resonance (Anderson, G.J. (52)
denaturation (Sijpkes, A.H. (52) 75) 173)
Aqueous urea solution Clustering
Cyclic dipeptide; Solubility; Apparent equilibrium constant; Limit cycle oscillator; Gap junctionally coupling (Nishiyama,
Protein denaturation (Sijpkes, A.H. (52) 75) N. (52) 139)
Azurin Compressibility
Proteins; Thermal unfolding (Milardi, D. (52) 183) Protein unfolding; Heat capacity change; Expansion coeffi-
cients; Heat capacity at constant pressure and constant vol-
Beticolin ume (Hinz, H.-J. (52) 275)
Protonation equilibrium; Magnesium complex; Fluorescence;
Potentiometry (Mikes, V. (52) 259) Computer Simulation
Canonical analysis; Correlated motions; DNA flexibility;
Binding Molecular dynamics (Briki, F. (52) 35)
Hemocyanin; 4’ ,6-diamidino-2-phenylindole (DAPI); Fluores-
cence (Mazzini, A. (52) 145) Conductance-temperature relationship
Single ion channels; Temperature; Electrolytes; Ohm’s law;
E. coli; Supercoiled DNA (Clendenning, J.B. (52) 227) Ion transport (Kuyucak, S. (52) 15)
Binding po!ynomials Configurational entropy
Reference reaction; Equilibrium constant; Penicillin; Ampi- Spectrin; Nuclear magnetic resonance; Conformational
cillin; Hydrolysis (Yap, W.T. (52) 125) change; Erythrocyte; Random coil (Begg, G.E. (52) 63)
290 Subject Index / Biophysical Chemistry 52 (1994) 289-293
Conformation Dynamic light scattering
Renin inhibitor peptide; Fourier Transform infrared; Nuclear Time-resolved fluorescence; Membrane curvature; Solvent re-
magnetic resonance; Circular dichroism (Anderson, G.J. (52) laxation (Hof, M. (52) 165)
173)
E. coli
Conformational change Supercoiled DNA; Binding (Clendenning, J.B. (52) 227)
Spectrin; Nuclear magnetic resonance; Configurational en-
tropy; Erythrocyte; Random coil (Begg, G.E. (52) 63) Electrolytes
Single ion channels; Temperature; Conductance-temperature
relationship; Ohm’s law; Ion transport (Kuyucak, S. (52) 15)
Constituent dimer
Mercuric ion effect; Spectral property; Synthetic polynu-
cleotide; Constituent monomer; Dipole strength, oscillator Electrophoretic DNA transfer
strength, hypochromism (Gruenwedel, D.W. (52) 115) Patch clamp; Long-lived conductive state; Plasmid DNA; Di-
phytanoy! lecithin monolayers (Spassova, M. (52) 267)
Constituent monomer
Mercuric ion effect; Spectral property; Synthetic polynu- Equilibrium constant
cleotide; Constituent dimer; Dipole strength, oscillator Binding polynomials; Reference reaction; Penicillin; Ampi-
strength, hypochromism (Gruenwedel, D.W. (52) 115) cillin; Hydrolysis (Yap, W.T. (52) 125)
Erythrocyte
Correlated motions
Spectrin; Nuclear magnetic resonance; Conformational
Canonical analysis; Computer Simulation; DNA flexibility;
change; Configurational entropy; Random coil (Begg, G.E.
Molecular dynamics (Briki, F. (52) 35)
(52) 63)
Correlation time distribution
Ethidium binding
Fluorescence; Anisotropy; Frequency domain; Fluorometry
Superhelix density; p306 DNA (Clendenning, J.B. (52) 191)
(Gryczynski, I. (52) 1)
Superhelix density; pBR322 DNA (Naimushin, A.N. (52) 219)
Cyclic dipeptide
Aqueous urea solution; Solubility; Apparent equilibrium con-
Excluded volume
stant; Protein denaturation (Sijpkes, A.H. (52) 75)
Self-association; Activity coefficient; Second virial coefficient;
Oligomers; Sedimentation equilibrium; Ultracentrifuge (Ral-
4’ ,6-diamidino-2-phenylindole (DAPI)
ston, G.B. (52) 51)
Hemocyanin; Fluorescence; Binding (Mazzini, A. (52) 145)
Expansion coefficients
Dihedral angle space
Protein unfolding; Heat capacity change; Compressibility;
Normal mode analysis; Cartesian coordinate space; Bovine
Heat capacity at constant pressure and constant volume (Hinz,
pancreatic trypsin inhibitor; Important conformational sub-
H.-J. (52) 275)
space (Kitao, A. (52) 107)
Fluorescence
Diphytanoy! lecithin monolayers Anisotropy; Frequency domain; Fluorometry; Correlation time
Patch clamp; Electrophoretic DNA transfer; Long-lived con- distribution (Gryczynski, I. (52) 1)
ductive state; Plasmid DNA (Spassova, M. (52) 267)
Hemocyanin; 4’ ,6-diamidino-2-phenylindole (DAPI); Binding
Dipole strength, oscillator strength, hypochromism (Mazzini, A. (52) 145)
Mercuric ion effect; Spectral property; Synthetic polynu-
cleotide; Constituent monomer; Constituent dimer (Gruen- Protonation equilibrium; Magnesium complex; Beticolin; Po-
wedel, D.W. (52) 115) tentiometry (Mikes, V. (52) 259)
p305 DNA Fluorometry
Ethidium binding; Superhelix density (Clendenning, J.B. (52) Fluorescence; Anisotropy; Frequency domain; Correlation
191) time distribution (Gryczynski, I. (52) 1)
DNA flexibility Fourier Transform infrared
Canonical analysis; Computer Simulation; Correlated mo- Renin inhibitor peptide; Conformation; Nuclear magnetic res-
tions; Molecular dynamics (Briki, F. (52) 35) onance; Circular dichroism (Anderson, G.J. (52) 173)
Subject Index / Biophysical Chemistry 52 (1994) 289-293
Frequency domain Ion transport
Fluorescence; Anisotropy; Fluorometry; Correlation time dis- Single ion channels; Temperature; Conductance-temperature
tribution (Gryczynski, I. (52) 1) relationship; Electrolytes; Ohm’s law (Kuyucak, S. (52) 15)
Gap junctionally coupling Kinetics
Limit cycle oscillator; Clustering (Nishiyama, N. (52) 139) Antibody binding; Antigen (Nygren, H. (52) 45)
Hard ellipsoids of revolution Ligand binding
Nonideal solutions; Small-angle scattering; Monte Carlo simu- Thermodynamic systems; Proteins (Gutheil, W.G. (52) 83)
lation; Interparticle interaction; Human serum albumin
(Sjéberg, B. (52) 131)
Limit cycle oscillator
Gap junctionally coupling; Clustering (Nishiyama, N. (52) 139)
Heat capacity at constant pressure and constant volume
Protein unfolding; Heat capacity change; Expansion coeffi-
Long-lived conductive state
cients; Compressibility (Hinz, H.-J. (52) 275)
Patch clamp; Electrophoretic DNA transfer; Plasmid DNA;
Diphytanoy! lecithin monolayers (Spassova, M. (52) 267)
Heat capacity change
Protein unfolding; Expansion coefficients; Compressibility;
Magnesium complex
Heat capacity at constant pressure and constant volume (Hinz,
Protonation equilibrium; Beticolin; Fluorescence; Potentio-
H.-J. (52) 275)
metry (Mikes, V. (52) 259)
Hemocyanin
Membrane curvature
4’ 6-diamidino-2-phenylindole (DAPI); Fluorescence; Binding
Time-resolved fluorescence; Solvent relaxation; Dynamic light
(Mazzini, A. (52) 145)
scattering (Hof, M. (52) 165)
Human serum albumin
Mercuric ion effect
Nonideal solutions; Small-angle scattering; Monte Carlo simu-
Spectral property; Synthetic polynucleotide; Constituent
lation; Interparticle interaction; Hard ellipsoids of revolution
monomer; Constituent dimer; Dipole strength, oscillator
(Sjéberg, B. (52) 131)
strength, hypochromism (Gruenwedel, D.W. (52) 115)
Hydrolysis
Micelle
Binding polynomials; Reference reaction; Equilibrium con-
Papaverine; Vasodilator drug; Interaction; Surfactant; NMR
stant; Penicillin; Ampicillin (Yap, W.T. (52) 125)
(Yushmanov, V.E. (52) 157)
Hydrophobic interactions
Molecular dynamics
Spectrin; Sedimentation equilibrium; Ultracentrifuge; Ther-
modynamics; Van’t Hoff (Henniker, A. (52) 251) Canonical analysis; Computer Simulation; Correlated mo-
tions; DNA flexibility (Briki, F. (52) 35)
Important conformational subspace
Normal mode analysis; Dihedral angle space; Cartesian coor- Monte Carlo simulation
dinate space; Bovine pancreatic trypsin inhibitor (Kitao, A. Nonideal solutions; Small-angle scattering; Interparticle inter-
(52) 107) action; Hard ellipsoids of revolution; Human serum albumin
(Sjéberg, B. (52) 131)
Interaction
Papaverine; Vasodilator drug; Micelle; Surfactant; NMR NMR
(Yushmanov, V.E. (52) 157) Papaverine; Vasodilator drug; Micelle; Interaction; Surfactant
(Yushmanov, V.E. (52) 157)
Interaction energy
Protein adsorption; lon-exchange (Gerstner, J.A. (52) 97) Nonideal solutions
Small-angle scattering; Monte Carlo simulation; Interparticle
Interparticle interaction interaction; Hard ellipsoids of revolution; Human serum albu-
Nonideal solutions; Small-angle scattering; Monte Carlo simu- min (Sjéberg, B. (52) 131)
lation; Hard ellipsoids of revolution; Human serum albumin
(Sjéberg, B. (52) 131) Normal mode analysis
Dihedral angle space; Cartesian coordinate space; Bovine
lon-exchange pancreatic trypsin inhibitor; Important conformational sub-
Protein adsorption; Interaction energy (Gerstner, J.A. (52) 97) space (Kitao, A. (52) 107)
292 Subject Index / Biophysical Chemistry 52 (1994) 289-293
Nuclear magnetic resonance Protonation equilibrium
Spectrin; Conformational change; Configurational entropy; Magnesium complex; Beticolin; Fluorescence; Potentiometry
Erythrocyte; Random coil (Begg, G.E. (52) 63) (Mikes, V. (52) 259)
Renin inhibitor peptide; Conformation; Fourier Transform Random coil
infrared; Circular dichroism (Anderson, G.J. (52) 173) Spectrin; Nuclear magnetic resonance; Conformational
change; Configurational entropy; Erythrocyte (Begg, G.E. (52)
Ohm’s law 63)
Single ion channels; Temperature; Conductance-temperature
relationship; Electrolytes; lon transport (Kuyucak, S. (52) 15)
Reference reaction
Binding polynomials; Equilibrium constant; Penicillin; Ampi-
Oligomers
cillin; Hydrolysis (Yap, W.T. (52) 125)
Self-association; Excluded volume; Activity coefficient; Sec-
ond virial coefficient; Sedimentation equilibrium; Ultracen-
Renin inhibitor peptide
trifuge (Ralston, G.B. (52) 51)
Conformation; Fourier Transform infrared; Nuclear magnetic
resonance; Circular dichroism (Anderson, G.J. (52) 173)
Papaverine
Vasodilator drug; Micelle; Interaction; Surfactant; NMR
Second virial coefficient
(Yushmanov, V.E. (52) 157)
Self-association; Excluded volume; Activity coefficient;
Oligomers; Sedimentation equilibrium; Ultracentrifuge (Ral-
Patch clamp
ston, G.B. (52) 51)
Electrophoretic DNA transfer; Long-lived conductive state;
Plasmid DNA; Diphytanoy! lecithin monolayers (Spassova, M.
Sedimentation equilibrium
(52) 267)
Self-association; Excluded volume; Activity coefficient; Sec-
Penicillin ond virial coefficient; Oligomers; Ultracentrifuge (Ralston,
Binding polynomials; Reference reaction; Equilibrium con- G.B. (52) 51)
stant; Ampicillin; Hydrolysis (Yap, W.T. (52) 125)
Spectrin; Ultracentrifuge; Thermodynamics; Hydrophobic in-
Plasmid DNA teractions; Van’t Hoff (Henniker, A. (52) 251)
Patch clamp; Electrophoretic DNA transfer; Long-lived con-
ductive state; Diphytanoyl lecithin monolayers (Spassova, M. Self-association
(52) 267) Excluded volume; Activity coefficient; Second virial coeffi-
cient; Oligomers; Sedimentation equilibrium; Ultracentrifuge
Potentiometry (Ralston, G.B. (52) 51)
Protonation equilibrium; Magnesium complex; Beticolin; Flu-
orescence (Mikes, V. (52) 259)
Single ion channels
Temperature; Conductance-temperature relationship; Elec-
Protein adsorption
trolytes; Ohm’s law; Ion transport (Kuyucak, S. (52) 15)
Interaction energy; lon-exchange (Gerstner, J.A. (52) 97)
Small-angle scattering
Protein conformation
Nonideal solutions; Monte Carlo simulation; Interparticle in-
Tryptophan phosphorescence; Substrates (Cioni, P. (52) 25)
teraction; Hard ellipsoids of revolution; Human serum albu-
min (Sjéberg, B. (52) 131)
Protein denaturation
Cyclic dipeptide; Aqueous urea solution; Solubility; Apparent
Solubility
equilibrium constant (Sijpkes, A.H. (52) 75)
Cyclic dipeptide; Aqueous urea solution; Apparent equilib-
rium constant; Protein denaturation (Sijpkes, A.H. (52) 75)
Proteins
Thermodynamic systems; Ligand binding (Gutheil, W.G. (52)
83) Solvent relaxation
Time-resolved fluorescence; Membrane curvature; Dynamic
Thermal unfolding; Azurin (Milardi, D. (52) 183) light scattering (Hof, M. (52) 165)
Protein unfolding Spectral property
Heat capacity change; Expansion coefficients; Compressibil- Mercuric ion effect; Synthetic polynucleotide; Constituent
ity; Heat capacity at constant pressure and constant volume monomer; Constituent dimer; Dipole strength, oscillator
(Hinz, H.-J. (52) 275) strength, hypochromism (Gruenwedel, D.W. (52) 115)
Subject Index / Biophysical Chemistry 52 (1994) 289-293 293
Spectrin Thermal unfolding
Nuclear magnetic resonance; Conformational change; Config- Proteins; Azurin (Milardi, D. (52) 183)
urational entropy; Erythrocyte: Random coil (Begg, G.E. (52)
63) Thermodynamics
Spectrin; Sedimentation equilibrium; Ultracentrifuge; Hy-
Sedimentation equilibrium; Ultracentrifuge; Thermodynam- drophobic interactions; Van’t Hoff (Henniker, A. (52) 251)
ics; Hydrophobic interactions; Van’t Hoff (Henniker, A. (52)
Thermodynamic systems
251)
Ligand binding; Proteins (Gutheil, W.G. (52) 83)
Substrates
Time-resolved fluorescence
Tryptophan phosphorescence; Protein conformation (Cioni, P.
Membrane curvature; Solvent relaxation; Dynamic light scat-
(52) 25)
tering (Hof, M. (52) 165)
Supercoiled DNA
Tryptophan phosphorescence
E. coli; Binding (Clendenning, J.B. (52) 227)
Protein conformation; Substrates (Cioni, P. ($2) 25)
Superhelix density
Ultracentrifuge
Ethidium binding; p305 DNA (Clendenning, J.B. (52) 191)
Self-association; Excluded volume; Activity coefficient; Sec-
ond virial coefficient; Oligomers; Sedimentation equilibrium
Ethidium binding; pBR322 DNA (Naimushin, A.N. (52) 219)
(Ralston, G.B. (52) 51)
Surfactant
Spectrin; Sedimentation equilibrium; Thermodynamics; Hy-
Papaverine; Vasodilator drug; Micelle; Interaction; NMR
drophobic interactions; Van’t Hoff (Henniker, A. (52) 251)
(Yushmanov, V.E. (52) 157)
Van’t Hoff
Synthetic polynucleotide Spectrin; Sedimentation equilibrium; Ultracentrifuge; Ther-
Mercuric ion effect; Spectral property; Constituent monomer; modynamics; Hydrophobic interactions (Henniker, A. (52)
Constituent dimer; Dipole strength, oscillator strength, 251)
hypochromism (Gruenwedel, D.W. (52) 115)
Vasodilator drug
Temperature Papaverine; Micelle; Interaction; Surfactant; NMR (Yushma-
Single ion channels; Conductance-temperature relationship; nov, V.E. (52) 157)
Electrolytes; Ohm’s law; Ion transport (Kuyucak, S. (52) 15)
