Published in Biochemistry on November 30, 2004
Force probing surfaces of living cells to molecular resolution. Nat Chem Biol (2009) 2.28
Fractional polymerization of a suspended planar bilayer creates a fluid, highly stable membrane for ion channel recordings. J Am Chem Soc (2010) 1.23
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Unfolding and extraction of a transmembrane alpha-helical peptide: dynamic force spectroscopy and molecular dynamics simulations. Biophys J (2005) 0.94
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An alternative bactericidal mechanism of action for lantibiotic peptides that target lipid II. Science (2006) 3.05
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Identification of FtsW as a transporter of lipid-linked cell wall precursors across the membrane. EMBO J (2011) 2.66
The nisin-lipid II complex reveals a pyrophosphate cage that provides a blueprint for novel antibiotics. Nat Struct Mol Biol (2004) 2.36
Protein-lipid interactions studied with designed transmembrane peptides: role of hydrophobic matching and interfacial anchoring. Mol Membr Biol (2003) 2.28
Lipid II is an intrinsic component of the pore induced by nisin in bacterial membranes. J Biol Chem (2003) 2.26
Membrane damage by human islet amyloid polypeptide through fibril growth at the membrane. Proc Natl Acad Sci U S A (2008) 2.25
Geometry and intrinsic tilt of a tryptophan-anchored transmembrane alpha-helix determined by (2)H NMR. Biophys J (2002) 2.01
Tilt angles of transmembrane model peptides in oriented and non-oriented lipid bilayers as determined by 2H solid-state NMR. Biophys J (2004) 1.98
Nonbilayer lipids affect peripheral and integral membrane proteins via changes in the lateral pressure profile. Biochim Biophys Acta (2004) 1.94
Interfacial anchor properties of tryptophan residues in transmembrane peptides can dominate over hydrophobic matching effects in peptide-lipid interactions. Biochemistry (2003) 1.92
Modulation of membrane curvature by phosphatidic acid and lysophosphatidic acid. Traffic (2003) 1.91
Spontaneous curvature of phosphatidic acid and lysophosphatidic acid. Biochemistry (2005) 1.66
Lateral diffusion of membrane proteins. J Am Chem Soc (2009) 1.65
Assembly and stability of nisin-lipid II pores. Biochemistry (2004) 1.60
Islet amyloid polypeptide-induced membrane leakage involves uptake of lipids by forming amyloid fibers. FEBS Lett (2004) 1.59
Snorkeling of lysine side chains in transmembrane helices: how easy can it get? FEBS Lett (2003) 1.57
Lipid dependence of membrane anchoring properties and snorkeling behavior of aromatic and charged residues in transmembrane peptides. Biochemistry (2002) 1.54
On the orientation of a designed transmembrane peptide: toward the right tilt angle? J Am Chem Soc (2007) 1.54
An electrostatic/hydrogen bond switch as the basis for the specific interaction of phosphatidic acid with proteins. J Biol Chem (2007) 1.50
How protein transmembrane segments sense the lipid environment. Biochemistry (2007) 1.50
Lipid packing drives the segregation of transmembrane helices into disordered lipid domains in model membranes. Proc Natl Acad Sci U S A (2011) 1.50
Influence of flanking residues on tilt and rotation angles of transmembrane peptides in lipid bilayers. A solid-state 2H NMR study. Biochemistry (2005) 1.45
Sphingomyelin is much more effective than saturated phosphatidylcholine in excluding unsaturated phosphatidylcholine from domains formed with cholesterol. FEBS Lett (2003) 1.37
Self-association of transmembrane alpha-helices in model membranes: importance of helix orientation and role of hydrophobic mismatch. J Biol Chem (2005) 1.36
Islet amyloid polypeptide inserts into phospholipid monolayers as monomer. J Mol Biol (2005) 1.35
What makes the bioactive lipids phosphatidic acid and lysophosphatidic acid so special? Biochemistry (2005) 1.33
Nanocapsules: lipid-coated aggregates of cisplatin with high cytotoxicity. Nat Med (2002) 1.32
Transbilayer movement of phospholipids in biogenic membranes. Biochemistry (2004) 1.32
Lipid II induces a transmembrane orientation of the pore-forming peptide lantibiotic nisin. Biochemistry (2002) 1.31
Phospholipid flop induced by transmembrane peptides in model membranes is modulated by lipid composition. Biochemistry (2003) 1.28
Hydrophobic mismatch between helices and lipid bilayers. Biophys J (2003) 1.28
NMR study of mersacidin and lipid II interaction in dodecylphosphocholine micelles. Conformational changes are a key to antimicrobial activity. J Biol Chem (2003) 1.25
Synthesis of DOTA-conjugated multivalent cyclic-RGD peptide dendrimers via 1,3-dipolar cycloaddition and their biological evaluation: implications for tumor targeting and tumor imaging purposes. Org Biomol Chem (2007) 1.24
Characterization and membrane assembly of the TatA component of the Escherichia coli twin-arginine protein transport system. Biochemistry (2002) 1.24
Covalently dimerized SecA is functional in protein translocation. J Biol Chem (2005) 1.23
The effects of hydrophobic mismatch between phosphatidylcholine bilayers and transmembrane alpha-helical peptides depend on the nature of interfacially exposed aromatic and charged residues. Biochemistry (2002) 1.22
Natamycin blocks fungal growth by binding specifically to ergosterol without permeabilizing the membrane. J Biol Chem (2007) 1.20
Translocation of phospholipids is facilitated by a subset of membrane-spanning proteins of the bacterial cytoplasmic membrane. J Biol Chem (2003) 1.18
Orientation and dynamics of transmembrane peptides: the power of simple models. Eur Biophys J (2009) 1.18
Transmembrane transport of peptidoglycan precursors across model and bacterial membranes. Mol Microbiol (2007) 1.16
Recent insights in islet amyloid polypeptide-induced membrane disruption and its role in beta-cell death in type 2 diabetes mellitus. Exp Diabetes Res (2008) 1.15
Resistance of Gram-positive bacteria to nisin is not determined by lipid II levels. FEMS Microbiol Lett (2004) 1.15
Influence of lipids on membrane assembly and stability of the potassium channel KcsA. FEBS Lett (2002) 1.15
Stability of KcsA tetramer depends on membrane lateral pressure. Biochemistry (2004) 1.12
Mechanism and kinetics of peptide partitioning into membranes from all-atom simulations of thermostable peptides. J Am Chem Soc (2010) 1.09
Photocrosslinking and click chemistry enable the specific detection of proteins interacting with phospholipids at the membrane interface. Chem Biol (2009) 1.08
Natamycin inhibits vacuole fusion at the priming phase via a specific interaction with ergosterol. Antimicrob Agents Chemother (2010) 1.07
Membrane interaction of the glycosyltransferase MurG: a special role for cardiolipin. J Bacteriol (2003) 1.06
Importance of hydrophobic matching for spontaneous insertion of a single-spanning membrane protein. Biochemistry (2002) 1.05
Tilt and rotation angles of a transmembrane model peptide as studied by fluorescence spectroscopy. Biophys J (2009) 1.05
Factors affecting gas-phase deuterium scrambling in peptide ions and their implications for protein structure determination. J Am Chem Soc (2002) 1.05
Membrane association of the cycling peroxisome import receptor Pex5p. J Biol Chem (2006) 1.04
Bacterial reaction centers purified with styrene maleic acid copolymer retain native membrane functional properties and display enhanced stability. Angew Chem Int Ed Engl (2014) 1.04
Order parameters of a transmembrane helix in a fluid bilayer: case study of a WALP peptide. Biophys J (2010) 1.02
The role of lipids in membrane insertion and translocation of bacterial proteins. Biochim Biophys Acta (2004) 1.02
Aerobic sn-glycerol-3-phosphate dehydrogenase from Escherichia coli binds to the cytoplasmic membrane through an amphipathic alpha-helix. Biochem J (2002) 1.01
Synthesis and applications of biomedical and pharmaceutical polymers via click chemistry methodologies. Bioconjug Chem (2009) 1.01
Domain formation in phosphatidylcholine bilayers containing transmembrane peptides: specific effects of flanking residues. Biochemistry (2002) 1.01
Transmembrane peptides stabilize inverted cubic phases in a biphasic length-dependent manner: implications for protein-induced membrane fusion. Biophys J (2005) 1.00
Crystal structure of SecB from Escherichia coli. J Struct Biol (2003) 1.00
Peptides and proteins as a continuing exciting source of inspiration for peptidomimetics. Chembiochem (2011) 1.00
Depletion of phosphatidylcholine in yeast induces shortening and increased saturation of the lipid acyl chains: evidence for regulation of intrinsic membrane curvature in a eukaryote. Mol Biol Cell (2005) 0.99
Membrane organization and ionization behavior of the minor but crucial lipid ceramide-1-phosphate. Biophys J (2008) 0.99
Influence of hydrophobic mismatch and amino acid composition on the lateral diffusion of transmembrane peptides. Biophys J (2010) 0.98
Development of a novel chemical probe for the selective enrichment of phosphorylated serine- and threonine-containing peptides. Chembiochem (2005) 0.98
Clavanin permeabilizes target membranes via two distinctly different pH-dependent mechanisms. Biochemistry (2002) 0.97
beta-Sheet structured beta-amyloid(1-40) perturbs phosphatidylcholine model membranes. J Mol Biol (2007) 0.95
Multilayer formation upon compression of surfactant monolayers depends on protein concentration as well as lipid composition. An atomic force microscopy study. J Biol Chem (2002) 0.95
The role of the abundant phenylalanines in the mode of action of the antimicrobial peptide clavanin. Biochim Biophys Acta (2003) 0.95
Interaction of the K+ channel KcsA with membrane phospholipids as studied by ESI mass spectrometry. FEBS Lett (2003) 0.95
A novel in vivo cell-wall labeling approach sheds new light on peptidoglycan synthesis in Escherichia coli. Chembiochem (2011) 0.95
Protein self-assembly and lipid binding in the folding of the potassium channel KcsA. Biochemistry (2008) 0.95