Control of phospholipid flip-flop by transmembrane peptides
Abstract
We designed three types of transmembrane model peptides whose sequence originates from a frequently used model peptide KALP23, and we investigated their effects on phospholipid flip-flop. Time-resolved small-angle neutron scattering and a dithionite fluorescent quenching assay demonstrated that TMP-L, which has a fully hydrophobic transmembrane region, did not enhance phospholipid flip-flop, whereas TMP-K and TMP-E, which have Lys and Glu, respectively, in the center of their transmembrane regions, enhanced phospholipid flip-flop. Introduction of polar residues in the membrane-spanning helices is considered to produce a locally polar region and enable the lipid head group to interact with the polar side-chain inside the bilayers, thereby reducing the activation energy for the flip-flop. A bioinformatics approach revealed that acidic and basic residues account for 4.5% of the central region of the transmembrane domain in human ER membrane proteins. Therefore, polar residues in ER membrane proteins are considered to provide flippase-like activity.
- Publication:
-
Chemical Physics
- Pub Date:
- June 2013
- DOI:
- 10.1016/j.chemphys.2012.12.041
- Bibcode:
- 2013CP....419...78K
- Keywords:
-
- Phospholipid;
- Flip-flop;
- Transmembrane peptide;
- Small-angle neutron scattering;
- Fluorescence;
- Dithionite assay