scholarly article | Q13442814 |
P2093 | author name string | Brasseur R | |
Bechinger B | |||
Vogt B | |||
Schinzel S | |||
Ducarme P | |||
P2860 | cites work | A simple method for displaying the hydropathic character of a protein | Q26778481 |
Protein, lipid and water organization in bacteriorhodopsin crystals: a molecular view of the purple membrane at 1.9 A resolution | Q27619516 | ||
The X-ray crystal structure of the membrane protein prostaglandin H2 synthase-1 | Q27731226 | ||
Structural studies of synthetic peptides dissected from the voltage-gated sodium channel | Q27732716 | ||
Membrane protein folding and stability: physical principles | Q29620789 | ||
Towards membrane protein design: pH-sensitive topology of histidine-containing polypeptides | Q30425980 | ||
Membrane orientation of the N-terminal segment of alamethicin determined by solid-state 15N NMR | Q30447613 | ||
Electric charge effects on phospholipid headgroups. Phosphatidylcholine in mixtures with cationic and anionic amphiphiles | Q30976803 | ||
Orientational distribution of alpha-helices in the colicin B and E1 channel domains: a one and two dimensional 15N solid-state NMR investigation in uniaxially aligned phospholipid bilayers | Q32132255 | ||
Peptide structural analysis by solid-state NMR spectroscopy | Q33749436 | ||
The structure, dynamics and orientation of antimicrobial peptides in membranes by multidimensional solid-state NMR spectroscopy | Q33789739 | ||
A novel peptide designated PYLa and its precursor as predicted from cloned mRNA of Xenopus laevis skin | Q33933506 | ||
Free-energy determinants of alpha-helix insertion into lipid bilayers | Q34017644 | ||
The tendency of magainin to associate upon binding to phospholipid bilayers | Q73215852 | ||
Molecular organization and dynamics of 1-palmitoyl-2-oleoylphosphatidylcholine bilayers containing a transmembrane alpha-helical peptide | Q74252523 | ||
Positively and negatively charged residues have different effects on the position in the membrane of a model transmembrane helix | Q77630438 | ||
Statistical thermodynamic analysis of peptide and protein insertion into lipid membranes | Q34040077 | ||
Physical principles of membrane organization | Q34056765 | ||
Biophysical investigations of membrane perturbations by polypeptides using solid-state NMR spectroscopy (review). | Q34112765 | ||
Identifying nonpolar transbilayer helices in amino acid sequences of membrane proteins | Q34181973 | ||
Mattress model of lipid-protein interactions in membranes | Q34261688 | ||
High-Resolution Conformation of Gramicidin A in a Lipid Bilayer by Solid-State NMR | Q34306653 | ||
Insertion of peptide chains into lipid membranes: an off-lattice Monte Carlo dynamics model | Q34361791 | ||
Membrane pores induced by magainin | Q34735975 | ||
Structure and orientation of the antibiotic peptide magainin in membranes by solid-state nuclear magnetic resonance spectroscopy | Q36277872 | ||
Structure and orientation of the pore-forming peptide, melittin, in lipid bilayers | Q36737698 | ||
Antibiotic magainins exert cytolytic activity against transformed cell lines through channel formation | Q37498093 | ||
Thermodynamics and kinetics of protein incorporation into membranes | Q37615029 | ||
The actions of melittin on membranes | Q37923509 | ||
Peptides from frog skin | Q37943230 | ||
Amphipathic helix motif: classes and properties | Q37987535 | ||
Antimicrobial peptide magainin I from Xenopus skin forms anion-permeable channels in planar lipid bilayers | Q39622704 | ||
Deuterium magnetic resonance: theory and application to lipid membranes | Q39709552 | ||
31P nuclear magnetic resonance and the head group structure of phospholipids in membranes | Q39770476 | ||
Membrane helix orientation from linear dichroism of infrared attenuated total reflection spectra | Q40224215 | ||
Peptide antibiotics and their role in innate immunity | Q40444944 | ||
Drosophila as a model system for antibacterial peptides. | Q40537854 | ||
Magainin-induced cytotoxicity in eukaryotic cells: kinetics, dose-response and channel characteristics | Q41259979 | ||
Structure and functions of channel-forming peptides: magainins, cecropins, melittin and alamethicin | Q41424594 | ||
Antitumor activity of magainin analogues against human lung cancer cell lines | Q44478213 | ||
Membrane thinning caused by magainin 2. | Q46338877 | ||
Novel peptide fragments originating from PGLa and the caerulein and xenopsin precursors from Xenopus laevis | Q46867138 | ||
Structure of the protein subunits in the photosynthetic reaction centre of Rhodopseudomonas viridis at 3Å resolution | Q47743729 | ||
Orientational and aggregational states of magainin 2 in phospholipid bilayers. | Q50774376 | ||
Peptide-bilayer interactions: simulations of dermaseptin B, an antimicrobial peptide. | Q52222811 | ||
IMPALA: a simple restraint field to simulate the biological membrane in molecular structure studies. | Q52245934 | ||
Two-Point Calibration of Circular Dichrometer with d-10-Camphorsulfonic Acid | Q57076206 | ||
Magainin Oligomers Reversibly Dissipate .DELTA..mu.H+ in Cytochrome Oxidase Liposomes | Q57393948 | ||
Electric potentiation, cooperativity, and synergism of magainin peptides in protein-free liposomes | Q57393953 | ||
Different Membrane Anchoring Positions of Tryptophan and Lysine in Synthetic Transmembrane α-Helical Peptides | Q58621100 | ||
Proton-Enhanced Dilute Spins in Solid | Q63109350 | ||
Magainin 2, a natural antibiotic from frog skin, forms ion channels in lipid bilayer membranes | Q67543315 | ||
Differentiation of lipid-associating helices by use of three-dimensional molecular hydrophobicity potential calculations | Q67697823 | ||
Membrane Proteins. The Amino Acid Composition of Membrane-Penetrating Segments | Q71040272 | ||
Low-temperature solid-state 15N NMR characterization of polypeptide backbone librations | Q71692165 | ||
Bacteriorhodopsin remains dispersed in fluid phospholipid bilayers over a wide range of bilayer thicknesses | Q71743843 | ||
Alamethicin and related peptaibols ? model ion channels | Q72092663 | ||
Experimental local therapy of human melanoma with lytic magainin peptides | Q72427890 | ||
Peptide models of helical hydrophobic transmembrane segments of membrane proteins. 1. Studies of the conformation, intrabilayer orientation, and amide hydrogen exchangeability of Ac-K2-(LA)12-K2-amide | Q72550426 | ||
The interactions of histidine-containing amphipathic helical peptide antibiotics with lipid bilayers. The effects of charges and pH | Q73041195 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 2644-2656 | |
P577 | publication date | 2000-11-01 | |
P1433 | published in | Biophysical Journal | Q2032955 |
P1476 | title | The topology of lysine-containing amphipathic peptides in bilayers by circular dichroism, solid-state NMR, and molecular modeling | |
P478 | volume | 79 |
Q34352977 | "De novo" design of peptides with specific lipid-binding properties. |
Q41837991 | An amino acid "transmembrane tendency" scale that approaches the theoretical limit to accuracy for prediction of transmembrane helices: relationship to biological hydrophobicity |
Q43262823 | Analysis of the amide (15)N chemical shift tensor of the C(alpha) tetrasubstituted constituent of membrane-active peptaibols, the alpha-aminoisobutyric acid residue, compared to those of di- and tri-substituted proteinogenic amino acid residues |
Q89959145 | Anionic food color tartrazine enhances antibacterial efficacy of histatin-derived peptide DHVAR4 by fine-tuning its membrane activity |
Q44247952 | Choline head groups stabilize the matrix loop regions of the ATP/ADP carrier ScAAC2. |
Q42677845 | Interactions involved in the realignment of membrane-associated helices. An investigation using oriented solid-state NMR and attenuated total reflection Fourier transform infrared spectroscopies |
Q42013682 | Interactions of histatin 5 and histatin 5-derived peptides with liposome membranes: surface effects, translocation and permeabilization |
Q37160113 | Interactions of the C-terminus of lung surfactant protein B with lipid bilayers are modulated by acyl chain saturation |
Q34688801 | Lipid-controlled peptide topology and interactions in bilayers: structural insights into the synergistic enhancement of the antimicrobial activities of PGLa and magainin 2 |
Q51907521 | Lipid-destabilizing properties of the hydrophobic helices H8 and H9 from colicin E1. |
Q28359661 | Membrane insertion and orientation of polyalanine peptides: a (15)N solid-state NMR spectroscopy investigation |
Q34175845 | Membrane stress and permeabilization induced by asymmetric incorporation of compounds |
Q37194304 | Modeling kinetics of subcellular disposition of chemicals. |
Q51042371 | Monte Carlo simulations of tBid association with the mitochondrial outer membrane. |
Q40083533 | NMR Structural Studies of Antimicrobial Peptides: LPcin Analogs |
Q33591059 | NMR structural determinants of eosinophil cationic protein binding to membrane and heparin mimetics |
Q38218558 | On the design of supramolecular assemblies made of peptides and lipid bilayers |
Q33615520 | Partitioning, dynamics, and orientation of lung surfactant peptide KL(4) in phospholipid bilayers |
Q37265650 | Penetration depth of surfactant peptide KL4 into membranes is determined by fatty acid saturation |
Q35567804 | Protein–lipid interactions studied with designed transmembrane peptides: role of hydrophobic matching and interfacial anchoring (Review) |
Q34418836 | Redesigning channel-forming peptides: amino acid substitutions that enhance rates of supramolecular self-assembly and raise ion transport activity |
Q34353285 | Solid-state NMR investigations of interaction contributions that determine the alignment of helical polypeptides in biological membranes |
Q44444492 | The antibiotic activity of cationic linear amphipathic peptides: lessons from the action of leucine/lysine copolymers on bacteria of the class Mollicutes. |
Q41860450 | The control of transmembrane helix transverse position in membranes by hydrophilic residues |
Q27649739 | The crystal structure of the periplasmic domain of the Escherichia coli membrane protein insertase YidC contains a substrate binding cleft |
Q41327524 | The pleckstrin homology domain of phospholipase Cbeta transmits enzymatic activation through modulation of the membrane-domain orientation |
Q50724209 | Translocation of amino acyl residues from the membrane interface to the hydrophobic core: thermodynamic model and experimental analysis using ATR-FTIR spectroscopy. |