Add to ORKGThe favorable transfer free energy for a transmembrane (TM) α-helix between the aqueous phase and lipid bilayer underlies the stability of membrane proteins. However, the connection between the energetics and process of membrane protein assembly by the Sec61/SecY translocon complex in vivo is not clear. Here, we directly determine the partitioning free energies of a family of designed peptides using three independent approaches: an experimental microsomal Sec61 translocon assay, a biophysical (spectroscopic) characterization of peptide insertion into hydrated planar lipid bilayer arrays, and an unbiased atomic-detail equilibrium folding-partitioning molecular dynamics simulation. Remarkably, the measured free energies of insertion are quant...
A variety of biomolecules mediate physiological processes by inserting and reorganizing in cell memb...
A variety of biomolecules mediate physiological processes by inserting and reorganizing in cell memb...
The transfer of polypeptide segments into lipid bilayers to form transmembrane helices represents th...
The favourable transfer free energy for a transmembrane (TM) α-helix between the aqueous phase and l...
The interaction of α-helical peptides with lipid bilayers is central to our understanding of the phy...
AbstractFree energy profiles for insertion of a hydrophobic transmembrane protein α-helix (M2 from C...
The insertion of nascent polypeptide chains into lipid bilayer membranes and the stability of membra...
AbstractThe interaction of α-helical peptides with lipid bilayers is central to our understanding of...
AbstractFree energy profiles for insertion of a hydrophobic transmembrane protein α-helix (M2 from C...
Partitioning properties of transmembrane (TM) polypeptide segments directly determine membrane prote...
Experimental and computational studies have indicated that hydrophobicity plays a key role in drivin...
Experimental and computational studies have indicated that hydrophobicity plays a key role in drivin...
We show that the free energy of inserting hydrophobic peptides into lipid bilayer membranes from sur...
\u3cp\u3eThe anchor of most integral membrane proteins consists of one or several helices spanning t...
AbstractPartitioning properties of polypeptides are at the heart of biological membrane phenomena an...
A variety of biomolecules mediate physiological processes by inserting and reorganizing in cell memb...
A variety of biomolecules mediate physiological processes by inserting and reorganizing in cell memb...
The transfer of polypeptide segments into lipid bilayers to form transmembrane helices represents th...
The favourable transfer free energy for a transmembrane (TM) α-helix between the aqueous phase and l...
The interaction of α-helical peptides with lipid bilayers is central to our understanding of the phy...
AbstractFree energy profiles for insertion of a hydrophobic transmembrane protein α-helix (M2 from C...
The insertion of nascent polypeptide chains into lipid bilayer membranes and the stability of membra...
AbstractThe interaction of α-helical peptides with lipid bilayers is central to our understanding of...
AbstractFree energy profiles for insertion of a hydrophobic transmembrane protein α-helix (M2 from C...
Partitioning properties of transmembrane (TM) polypeptide segments directly determine membrane prote...
Experimental and computational studies have indicated that hydrophobicity plays a key role in drivin...
Experimental and computational studies have indicated that hydrophobicity plays a key role in drivin...
We show that the free energy of inserting hydrophobic peptides into lipid bilayer membranes from sur...
\u3cp\u3eThe anchor of most integral membrane proteins consists of one or several helices spanning t...
AbstractPartitioning properties of polypeptides are at the heart of biological membrane phenomena an...
A variety of biomolecules mediate physiological processes by inserting and reorganizing in cell memb...
A variety of biomolecules mediate physiological processes by inserting and reorganizing in cell memb...
The transfer of polypeptide segments into lipid bilayers to form transmembrane helices represents th...