Published in Biophys J on February 01, 1986
The distribution of positively charged residues in bacterial inner membrane proteins correlates with the trans-membrane topology. EMBO J (1986) 5.48
Incorporation of surface tension into molecular dynamics simulation of an interface: a fluid phase lipid bilayer membrane. Biophys J (1995) 4.50
Membrane dipole potentials, hydration forces, and the ordering of water at membrane surfaces. Biophys J (1992) 3.98
Molecular dynamics simulations of lipid bilayers: major artifacts due to truncating electrostatic interactions. Biophys J (2003) 2.16
Constant-pressure molecular dynamics investigation of cholesterol effects in a dipalmitoylphosphatidylcholine bilayer. Biophys J (1998) 2.15
Dual-wavelength ratiometric fluorescence measurement of the membrane dipole potential. Biophys J (1994) 1.93
How pore mouth charge distributions alter the permeability of transmembrane ionic channels. Biophys J (1987) 1.87
Magnitude of the solvation pressure depends on dipole potential. Proc Natl Acad Sci U S A (1989) 1.85
Ion conduction through MscS as determined by electrophysiology and simulation. Biophys J (2006) 1.80
Three-dimensional Poisson-Nernst-Planck theory studies: influence of membrane electrostatics on gramicidin A channel conductance. Biophys J (2000) 1.70
Internal electrostatic potentials in bilayers: measuring and controlling dipole potentials in lipid vesicles. Biophys J (1993) 1.63
AcrB multidrug efflux pump of Escherichia coli: composite substrate-binding cavity of exceptional flexibility generates its extremely wide substrate specificity. J Bacteriol (2003) 1.62
Stages of polymyxin B interaction with the Escherichia coli cell envelope. Antimicrob Agents Chemother (2000) 1.59
Noncontact dipole effects on channel permeation. I. Experiments with (5F-indole)Trp13 gramicidin A channels. Biophys J (1998) 1.57
Proton transport across transient single-file water pores in a lipid membrane studied by molecular dynamics simulations. Biophys J (1996) 1.56
Membrane protein topology: effects of delta mu H+ on the translocation of charged residues explain the 'positive inside' rule. EMBO J (1994) 1.53
Molecular origin of the internal dipole potential in lipid bilayers: calculation of the electrostatic potential. Biophys J (1992) 1.47
Influence of anions and cations on the dipole potential of phosphatidylcholine vesicles: a basis for the Hofmeister effect. Biophys J (1999) 1.44
Surface dipole moments of lipids at the argon-water interface. Similarities among glycerol-ester-based lipids. Biophys J (1990) 1.43
Structure and dynamics of sphingomyelin bilayer: insight gained through systematic comparison to phosphatidylcholine. Biophys J (2004) 1.40
Voltage sensing by fluorescence resonance energy transfer in single cells. Biophys J (1995) 1.38
Mitochondrially targeted compounds and their impact on cellular bioenergetics. Redox Biol (2013) 1.34
Photogating of ionic currents across a lipid bilayer. Proc Natl Acad Sci U S A (1989) 1.31
Structural requirement for the rapid movement of charged molecules across membranes. Experiments with tetraphenylborate analogues. Biophys J (1988) 1.27
Lipid bilayer topology of the transmembrane alpha-helix of M13 Major coat protein and bilayer polarity profile by site-directed fluorescence spectroscopy. Biophys J (2004) 1.26
A new model of weak acid permeation through membranes revisited: does Overton still rule? Biophys J (2006) 1.21
Photogating of ionic currents across lipid bilayers. Electrostatics of ions and dipoles inside the membrane. Biophys J (1992) 1.18
Permeation of halide anions through phospholipid bilayers occurs by the solubility-diffusion mechanism. Biophys J (1998) 1.18
Does arginine remain protonated in the lipid membrane? Insights from microscopic pKa calculations. Biophys J (2008) 1.18
Molecular distributions in interphases: statistical mechanical theory combined with molecular dynamics simulation of a model lipid bilayer. Biophys J (1994) 1.18
Cationic DMPC/DMTAP lipid bilayers: molecular dynamics study. Biophys J (2004) 1.17
Dipole potentials indicate restructuring of the membrane interface induced by gadolinium and beryllium ions. Biophys J (2001) 1.16
Modulation of the interbilayer hydration pressure by the addition of dipoles at the hydrocarbon/water interface. Biophys J (1992) 1.15
Quantitative measurement of mitochondrial membrane potential in cultured cells: calcium-induced de- and hyperpolarization of neuronal mitochondria. J Physiol (2012) 1.07
Hydrophobic ion hydration and the magnitude of the dipole potential. Biophys J (2002) 1.04
Kinetics of charge transfer at the lipid bilayer-water interface on the nanosecond time scale. Biophys J (1987) 1.04
Mechanistic analysis of massive endocytosis in relation to functionally defined surface membrane domains. J Gen Physiol (2011) 1.04
A cell-based molecular transport simulator for pharmacokinetic prediction and cheminformatic exploration. Mol Pharm (2006) 1.03
Bridging implicit and explicit solvent approaches for membrane electrostatics. Biophys J (2002) 1.02
Molecular dynamics simulations of supported phospholipid/alkanethiol bilayers on a gold(111) surface. Biophys J (1999) 1.00
Cholesterol effect on the dipole potential of lipid membranes. Biophys J (2006) 1.00
Increased adhesion between neutral lipid bilayers: interbilayer bridges formed by tannic acid. Biophys J (1994) 0.98
Adsorption to dipalmitoylphosphatidylcholine membranes in gel and fluid state: pentachlorophenolate, dipicrylamine, and tetraphenylborate. Biophys J (1990) 0.97
Hydration at the membrane protein-lipid interface. Biophys J (1992) 0.96
Electrostatics of a simple membrane model using Green's functions formalism. Biophys J (1996) 0.96
Mechanisms of passive ion permeation through lipid bilayers: insights from simulations. J Phys Chem B (2006) 0.96
Magnetic resonance of membranes. Biochem J (1991) 0.95
The adsorption of phloretin to lipid monolayers and bilayers cannot be explained by langmuir adsorption isotherms alone. Biophys J (1998) 0.93
Electrochemical modeling of electron and proton transfer to ubiquinone-10 in a self-assembled phospholipid monolayer. Biophys J (1996) 0.91
Probes of membrane electrostatics: synthesis and voltage-dependent partitioning of negative hydrophobic ion spin labels in lipid vesicles. Biophys J (1993) 0.89
Voltage sensitivity of the fluorescent probe RH421 in a model membrane system. Biophys J (1995) 0.88
Faster voltage-dependent activation of Na+ channels in growth cones versus somata of neuroblastoma N1E-115 cells. Biophys J (1996) 0.88
Second-harmonic generation imaging of membrane potential with retinal analogues. Biophys J (2011) 0.88
Effects of bilayer surface charge density on molecular adsorption and transport across liposome bilayers. Biophys J (2001) 0.87
Kinetic analysis of permeation of mitochondria-targeted antioxidants across bilayer lipid membranes. J Membr Biol (2008) 0.87
Derivatives of rhodamine 19 as mild mitochondria-targeted cationic uncouplers. J Biol Chem (2011) 0.86
Packing constraints and electrostatic surface potentials determine transmembrane asymmetry of phosphatidylethanol. Biophys J (1997) 0.86
Permeability and electrical properties of planar lipid membranes from thylakoid lipids. Biophys J (1994) 0.86
Ion-induced defect permeation of lipid membranes. Biophys J (2014) 0.85
Influence of the membrane dipole potential on peptide binding to lipid bilayers. Biophys Chem (2011) 0.85
Penetration of lipid chains into transmembrane surfaces of membrane proteins: studies with MscL. Biophys J (2007) 0.84
Surface dipole potential at the interface between water and self-assembled monolayers of phosphatidylserine and phosphatidic acid. Biophys J (1998) 0.83
Activation of phospholipase C increases intramembrane electric fields in N1E-115 neuroblastoma cells. Biophys J (2003) 0.83
Hofmeister effects of anions on the kinetics of partial reactions of the Na+,K+-ATPase. Biophys J (1999) 0.83
Molecular dynamics simulations of unsaturated lipid bilayers: effects of varying the numbers of double bonds. Eur Biophys J (2005) 0.83
Phloretin-induced changes of lipophilic ion transport across the plasma membrane of mammalian cells. Biophys J (2001) 0.81
Kinetics of the iodine- and bromine-mediated transport of halide ions: demonstration of an interfacial complexation mechanism. Biophys J (1993) 0.80
Molecular PET Imaging of Cyclophosphamide Induced Apoptosis with 18F-ML-8. Biomed Res Int (2015) 0.80
N-Myristoylated Phosphatidylethanolamine: Interfacial Behavior and Interaction with Cholesterol. Langmuir (2002) 0.80
Effect of membrane tension on the electric field and dipole potential of lipid bilayer membrane. Biochim Biophys Acta (2011) 0.79
Changes in a phospholipid bilayer induced by the hydrolysis of a phospholipase A2 enzyme: a molecular dynamics simulation study. Biophys J (2001) 0.79
Thallous ion movements through gramicidin channels incorporated in lipid monolayers supported by mercury. Biophys J (2002) 0.78
High lipophilicity of perfluoroalkyl carboxylate and sulfonate: implications for their membrane permeability. J Am Chem Soc (2009) 0.78
Meet me on the other side: trans-bilayer modulation of a model voltage-gated ion channel activity by membrane electrostatics asymmetry. PLoS One (2011) 0.77
Electrostatic coupling of ion pumps. Biophys J (1992) 0.77
Phospholipid-subclass-specific partitioning of lipophilic ions in membrane-water systems. Biochem J (1999) 0.76
Modifiers of the Dipole Potential of Lipid Bilayers. Acta Naturae (2016) 0.75
The modulatory effect of calcium ions upon alamethicin monomers uptake on artificial phospholipid membranes. J Biol Phys (2005) 0.75
Phase-transfer energetics of small-molecule alcohols across the water-hexane interface: molecular dynamics simulations using charge equilibration models. J Mol Graph Model (2010) 0.75
Resolution of phospholipid conformational heterogeneity in model membranes by spin-label EPR and frequency-domain fluorescence spectroscopy. Biophys J (1991) 0.75
Membrane Cholesterol in Skeletal Muscle: A Novel Player in Excitation-Contraction Coupling and Insulin Resistance. J Diabetes Res (2017) 0.75
Study of procaine and tetracaine in the lipid bilayer using molecular dynamics simulation. Eur Biophys J (2016) 0.75
Partitioning of tetrachlorophenol into lipid bilayers and sarcoplasmic reticulum: effect of length of acyl chains, carbonyl group of lipids and biomembrane structure. J Membr Biol (2005) 0.75
The dipole potential correlates with lipid raft markers in the plasma membrane of living cells. J Lipid Res (2017) 0.75
Lipid conformation in model membranes and biological membranes. Q Rev Biophys (1980) 6.44
Energy of an ion crossing a low dielectric membrane: solutions to four relevant electrostatic problems. Nature (1969) 6.25
The molecular structure of lecithin dihydrate. Nature (1979) 5.41
Preferred conformation and molecular packing of phosphatidylethanolamine and phosphatidylcholine. Biochim Biophys Acta (1981) 5.21
Neutron diffraction studies on selectively deuterated phospholipid bilayers. Nature (1978) 5.16
Ion transport across thin lipid membranes: a critical discussion of mechanisms in selected systems. Q Rev Biophys (1972) 4.32
Neutron diffraction studies on phosphatidylcholine model membranes. II. Chain conformation and segmental disorder. J Mol Biol (1979) 4.27
Nonlinear electrical effects in lipid bilayer membranes. II. Integration of the generalized Nernst-Planck equations. Biophys J (1969) 4.07
Electrical capacity of black lipid films and of lipid bilayers made from monolayers. Biochim Biophys Acta (1975) 3.65
Potential energy barriers to ion transport within lipid bilayers. Studies with tetraphenylborate. Biophys J (1975) 3.56
Selective transport of ions through bimolecular phospholipid membranes. Biochim Biophys Acta (1968) 3.51
Structural chemistry of 1,2 dilauroyl-DL-phosphatidylethanolamine: molecular conformation and intermolecular packing of phospholipids. Proc Natl Acad Sci U S A (1974) 3.30
Structural analysis of hydrated egg lecithin and cholesterol bilayers. II. Neutrol diffraction. J Mol Biol (1976) 3.30
Ion-membrane interactions as structural forces. Ann N Y Acad Sci (1975) 2.91
The structure of lipid bilayers and the effects of general anaesthetics. An x-ray and neutron diffraction study. J Mol Biol (1979) 2.67
Surface charge, surface dipoles and membrane conductance. Biochim Biophys Acta (1973) 2.51
Structural analysis of hydrated egg lecithin and cholesterol bilayers. I. X-ray diffraction. J Mol Biol (1976) 2.44
Electrostatic modeling of ion pores. II. Effects attributable to the membrane dipole potential. Biophys J (1983) 1.91
Titration of the phase transition of phosphatidylserine bilayer membranes. Effects of pH, surface electrostatics, ion binding, and head-group hydration. Biochemistry (1981) 1.90
X-ray diffraction studies of lecithin bimolecular leaflets with incorporated fluorescent probes. Proc Natl Acad Sci U S A (1972) 1.89
On the location of I-anilino-8-naphthalene-sulfonate in lipid model systems. An x-ray diffraction study. Biochim Biophys Acta (1971) 1.89
Studies of the crystalline-liquid crystalline phase transition of lipid model membranes. I. Use of spin labels and optical probes as indicators of the phase transition. J Am Chem Soc (1972) 1.87
Neutron diffraction studies on the location of water in lecithin bilayer model membranes. Proc Natl Acad Sci U S A (1975) 1.84
Ionic probes of membrane structures. Ann N Y Acad Sci (1972) 1.74
The interaction of hydrophobic ions with lipid bilayer membranes. J Membr Biol (1975) 1.65
Dual mechanism for the action of cholesterol on membrane permeability. Nature (1974) 1.62
Polar group orientation and the electrical properties of lecithin bimolecular leaflets. J Theor Biol (1965) 1.57
The influence of lipid composition and of some adsorbed proteins on the capacitance of black hydrocarbon membranes. J Theor Biol (1965) 1.51
Chaotropic anions and the surface potential of bilayer membranes. Biochim Biophys Acta (1975) 1.48
The molecular organisation of bimolecular lipid membranes. The dielectric structure of the hydrophilic/hydrophobic interface. Biochim Biophys Acta (1981) 1.37
Dielectric constant and refractive index of lipid bilayers. J Theor Biol (1968) 1.34
Monolayer characteristics of some 1,2-diacyl, I-alkyl-2-acyl and 1,2-dialkyl phospholipids at the air-water interface. Biochim Biophys Acta (1971) 1.31
Perturbations of membrane structure by optical probes: I. Location and structural sensitivity of merocyanine 540 bound to phospholipid membranes. J Membr Biol (1980) 1.13
The headgroup conformation of phospholipids in membranes. J Membr Biol (1981) 1.12
Nuclear magnetic resonance studies of lecithin bimolecular leaflets with incorporated fluorescent probes. Proc Natl Acad Sci U S A (1977) 1.11
Effect of ionic polarizability on electrodiffusion in lipid bilayer membranes. J Membr Biol (1975) 1.08
Conformation of phospholipids. Crystal structure of a lysophosphatidylcholine analogue. J Mol Biol (1980) 0.90
Hydrophobic ion probe studies of membrane dipole potentials. Biochim Biophys Acta (1983) 0.88
Molecular motion in spin-labeled phospholipids and membranes. J Am Chem Soc (1971) 7.23
Requirement of rigid-body motion of transmembrane helices for light activation of rhodopsin. Science (1996) 6.50
Motion of spin-labeled side chains in T4 lysozyme. Correlation with protein structure and dynamics. Biochemistry (1996) 5.52
Spin-label studies of the excitable membranes of nerve and muscle. Proc Natl Acad Sci U S A (1968) 4.58
A collision gradient method to determine the immersion depth of nitroxides in lipid bilayers: application to spin-labeled mutants of bacteriorhodopsin. Proc Natl Acad Sci U S A (1994) 4.27
Transmembrane protein structure: spin labeling of bacteriorhodopsin mutants. Science (1990) 4.07
Crystal structures of spin labeled T4 lysozyme mutants: implications for the interpretation of EPR spectra in terms of structure. Biochemistry (2000) 3.46
Molecular motion of spin labeled side chains in alpha-helices: analysis by variation of side chain structure. Biochemistry (2001) 3.45
Electrostatic interactions in membranes and proteins. Annu Rev Biophys Biophys Chem (1986) 3.28
Structural studies on transmembrane proteins. 2. Spin labeling of bacteriorhodopsin mutants at unique cysteines. Biochemistry (1989) 3.25
Estimation of inter-residue distances in spin labeled proteins at physiological temperatures: experimental strategies and practical limitations. Biochemistry (2001) 2.89
Visual transduction in vertebrate photoreceptors. Annu Rev Neurosci (1979) 2.45
Preparation and properties of phospholipid bilayers containing rhodopsin. Proc Natl Acad Sci U S A (1972) 2.42
Orientation and motion of amphiphilic spin labels in membranes. Proc Natl Acad Sci U S A (1969) 2.29
Molecular characterization of helix-loop-helix peptides. Science (1992) 2.26
Spin labeled cysteines as sensors for protein-lipid interaction and conformation in rhodopsin. Photochem Photobiol (1992) 1.96
Motion of fatty acid spin labels in the plasma membrane of mycoplasma. Biochim Biophys Acta (1970) 1.91
Temperature- and light-dependent structural changes in rhodopsin-lipid membranes. Exp Eye Res (1973) 1.89
Lipid requirements for Rhodopsin regenerability. Biochemistry (1973) 1.89
Structural features and light-dependent changes in the cytoplasmic interhelical E-F loop region of rhodopsin: a site-directed spin-labeling study. Biochemistry (1996) 1.88
Stability of "salt bridges" in membrane proteins. Proc Natl Acad Sci U S A (1984) 1.79
Conformation of T4 lysozyme in solution. Hinge-bending motion and the substrate-induced conformational transition studied by site-directed spin labeling. Biochemistry (1997) 1.76
Colicin E1 binding to membranes: time-resolved studies of spin-labeled mutants. Science (1993) 1.73
Time-resolved detection of structural changes during the photocycle of spin-labeled bacteriorhodopsin. Science (1994) 1.70
Site-specific incorporation of biophysical probes into proteins. Proc Natl Acad Sci U S A (1994) 1.66
Estimation of membrane surface potential and charge density from the phase equilibrium of a paramagnetic amphiphile. Biochemistry (1976) 1.65
Organization of diphtheria toxin T domain in bilayers: a site-directed spin labeling study. Science (1996) 1.64
Hydrophobic ion interactions with membranes. Thermodynamic analysis of tetraphenylphosphonium binding to vesicles. Biophys J (1986) 1.64
Tear lipocalins bind a broad array of lipid ligands. Curr Eye Res (1995) 1.63
Quantitative analysis of the isolated GAAA tetraloop/receptor interaction in solution: a site-directed spin labeling study. Biochemistry (2001) 1.62
The intrinsic pKa values for phosphatidylserine and phosphatidylethanolamine in phosphatidylcholine host bilayers. Biophys J (1986) 1.58
Conformation of spin-labeled melittin at membrane surfaces investigated by pulse saturation recovery and continuous wave power saturation electron paramagnetic resonance. Biophys J (1989) 1.57
EPR determination of membrane potentials. Annu Rev Biophys Bioeng (1981) 1.56
Structure of the KcsA potassium channel from Streptomyces lividans: a site-directed spin labeling study of the second transmembrane segment. Biochemistry (1999) 1.56
Calculation of electron paramagnetic resonance spectra from Brownian dynamics trajectories: application to nitroxide side chains in proteins. Biophys J (1996) 1.55
Formation of the meta II photointermediate is accompanied by conformational changes in the cytoplasmic surface of rhodopsin. Biochemistry (1993) 1.55
A multifrequency electron spin resonance study of T4 lysozyme dynamics. Biophys J (1999) 1.54
Site-directed mutagenesis of colicin E1 provides specific attachment sites for spin labels whose spectra are sensitive to local conformation. Proteins (1989) 1.54
Motion of spin-labeled side chains in T4 lysozyme: effect of side chain structure. Biochemistry (1999) 1.51
Interaction of the isolated transmembrane domain of diphtheria toxin with membranes. Biochemistry (1995) 1.47
Interaction of alpha-crystallin with spin-labeled peptides. Biochemistry (1995) 1.44
Protein global fold determination using site-directed spin and isotope labeling. Protein Sci (2000) 1.42
The aggregation state of spin-labeled melittin in solution and bound to phospholipid membranes: evidence that membrane-bound melittin is monomeric. Proteins (1988) 1.38
Mapping light-dependent structural changes in the cytoplasmic loop connecting helices C and D in rhodopsin: a site-directed spin labeling study. Biochemistry (1995) 1.37
Effects of lipid environment on the light-induced conformational changes of rhodopsin. 2. Roles of lipid chain length, unsaturation, and phase state. Biochemistry (1985) 1.37
The interaction of small molecules with spin-labelled erythrocyte membranes. Biochim Biophys Acta (1970) 1.35
Identification of a subunit interface in transthyretin amyloid fibrils: evidence for self-assembly from oligomeric building blocks. Biochemistry (2001) 1.30
Electrogenic H+/OH- movement across phospholipid vesicles measured by spin-labeled hydrophobic ions. Biophys J (1983) 1.30
Structural features of the C-terminal domain of bovine rhodopsin: a site-directed spin-labeling study. Biochemistry (1999) 1.30
Structure and function in rhodopsin: mapping light-dependent changes in distance between residue 65 in helix TM1 and residues in the sequence 306-319 at the cytoplasmic end of helix TM7 and in helix H8. Biochemistry (2001) 1.29
Structure and function in rhodopsin. Single cysteine substitution mutants in the cytoplasmic interhelical E-F loop region show position-specific effects in transducin activation. Biochemistry (1996) 1.28
Structural features and light-dependent changes in the sequence 306-322 extending from helix VII to the palmitoylation sites in rhodopsin: a site-directed spin-labeling study. Biochemistry (1999) 1.28
Immunospecific targeting of liposomes to cells: a novel and efficient method for covalent attachment of Fab' fragments via disulfide bonds. Biochemistry (1981) 1.27
A method for distance determination in proteins using a designed metal ion binding site and site-directed spin labeling: evaluation with T4 lysozyme. Proc Natl Acad Sci U S A (1995) 1.27
Photoactivated conformational changes in rhodopsin: a time-resolved spin label study. Science (1993) 1.27
Proximity between Glu126 and Arg144 in the lactose permease of Escherichia coli. Biochemistry (1999) 1.26
Structure and function in rhodopsin: topology of the C-terminal polypeptide chain in relation to the cytoplasmic loops. Proc Natl Acad Sci U S A (1997) 1.25
Membrane-mediated assembly of annexins studied by site-directed spin labeling. J Biol Chem (1998) 1.23
Structure and function in rhodopsin. Cysteines 65 and 316 are in proximity in a rhodopsin mutant as indicated by disulfide formation and interactions between attached spin labels. Biochemistry (1996) 1.21
Structural features and light-dependent changes in the sequence 59-75 connecting helices I and II in rhodopsin: a site-directed spin-labeling study. Biochemistry (1999) 1.21
Determination of electrostatic potentials at biological interfaces using electron-electron double resonance. Biophys J (1992) 1.21
Locations of Arg-82, Asp-85, and Asp-96 in helix C of bacteriorhodopsin relative to the aqueous boundaries. Proc Natl Acad Sci U S A (1991) 1.20
Estimation of transmembrane potentials from phase equilibria of hydrophobic paramagnetic ions. Biochemistry (1978) 1.19
Lateral phase separations in membranes. J Supramol Struct (1973) 1.16
Side chain mobility and ligand interactions of the G strand of tear lipocalins by site-directed spin labeling. Biochemistry (1999) 1.15
Purification of rhodopsin on hydroxyapatite columns, detergent exchange, and recombination with phospholipids. Methods Enzymol (1982) 1.14
Transmembrane electrical currents of spin-labeled hydrophobic ions. Biophys J (1982) 1.14
Structure and function in rhodopsin: rhodopsin mutants with a neutral amino acid at E134 have a partially activated conformation in the dark state. Proc Natl Acad Sci U S A (1997) 1.13
Engineering a metal binding site within a polytopic membrane protein, the lactose permease of Escherichia coli. Biochemistry (1995) 1.12
Site-directed spin labeling of proteins. Applications to diphtheria toxin. Methods Mol Biol (2000) 1.11
Distance determination in proteins using designed metal ion binding sites and site-directed spin labeling: application to the lactose permease of Escherichia coli. Proc Natl Acad Sci U S A (1995) 1.09
Structure and function in rhodopsin: effects of disulfide cross-links in the cytoplasmic face of rhodopsin on transducin activation and phosphorylation by rhodopsin kinase. Biochemistry (1999) 1.08
Light-induced interfacial potentials in photoreceptor membranes. Biophys J (1980) 1.08
Pressure reversal of inhalation anesthetic-induced disorder in spin-labeled phospholipid vesicles. Biochim Biophys Acta (1973) 1.08
Use of designed metal-binding sites to study helix proximity in the lactose permease of Escherichia coli. 1. Proximity of helix VII (Asp237 and Asp240) with helices X (Lys319) and XI (Lys358). Biochemistry (1995) 1.08
Use of designed metal-binding sites to study helix proximity in the lactose permease of Escherichia coli. 2. Proximity of helix IX (Arg302) with helix X (His322 and Glu325). Biochemistry (1995) 1.08
Effects of lipid environment on the light-induced conformational changes of rhodopsin. 1. Absence of metarhodopsin II production in dimyristoylphosphatidylcholine recombinant membranes. Biochemistry (1985) 1.08
The effect of two inhalation anesthetics on the order of spin-labeled phospholipid vesicles. Biochim Biophys Acta (1973) 1.07
Calcium-sensitive regions of GCAP1 as observed by chemical modifications, fluorescence, and EPR spectroscopies. J Biol Chem (2001) 1.07
Phospholipid asymmetry and transmembrane diffusion in photoreceptor disc membranes. Biochemistry (1993) 1.06
Conformation of the diphtheria toxin T domain in membranes: a site-directed spin-labeling study of the TH8 helix and TL5 loop. Biochemistry (1999) 1.05
Localization of molecular halothane in phospholipid bilayer model nerve membranes. Anesthesiology (1976) 1.05
Site-directed spin labeling and chemical crosslinking demonstrate that helix V is close to helices VII and VIII in the lactose permease of Escherichia coli. Proc Natl Acad Sci U S A (1996) 1.03
Organization of rhodopsin in photoreceptor membranes. 1. Proteolysis of bovine rhodopsin in native membranes and the distribution of sulfhydryl groups in the fragments. Biochemistry (1978) 1.01
Docking phospholipase A2 on membranes using electrostatic potential-modulated spin relaxation magnetic resonance. Science (1998) 1.01
A transmembrane form of annexin XII detected by site-directed spin labeling. Proc Natl Acad Sci U S A (1998) 1.01
Estimation of transmembrane pH gradients from phase equilibria of spin-labeled amines. Biochemistry (1978) 0.99
A conserved disulfide motif in human tear lipocalins influences ligand binding. Biochemistry (1998) 0.98
Site directed spin labeling studies of structure and dynamics in bacteriorhodopsin. Biophys Chem (1995) 0.95
Site-directed spin-labeling of transmembrane domain VII and the 4B1 antibody epitope in the lactose permease of Escherichia coli. Biochemistry (1997) 0.95
Organization of rhodopsin in photoreceptor membranes. 2. Transmembrane organization of bovine rhodopsin: evidence from proteolysis and lactoperoxidase-catalyzed iodination of native and reconstituted membranes. Biochemistry (1978) 0.94
Arginine 302 (helix IX) in the lactose permease of Escherichia coli is in close proximity to glutamate 269 (helix VIII) as well as glutamate 325. Biochemistry (1997) 0.94
Investigation of surface potential asymmetry in phospholipid vesicles by a spin label relaxation method. Biophys J (1986) 0.92
Site-directed spin labeling demonstrates that transmembrane domain XII in the lactose permease of Escherichia coli is an alpha-helix. Biochemistry (1996) 0.90
Pressure reversal of anesthesia: the extent of small-molecule exclusion from spin-labeled phospholipid model membranes. Anesthesiology (1973) 0.90