Title
Design of Lipid-Protein Conjugates Using Amphiphilic Peptide Substrates of Microbial Transglutaminase
Author
Mari Takahara, Rie Wakabayashi, Kosuke Minamihata, Masahiro Goto, Noriho Kamiya
Year
2018
Journal
ACS Applied Biomaterials
Abstract
Lipid-modification of proteins plays a significant role in regulating the cellular environment. Mimicking natural lipidated proteins is a key technique for assessing the function of proteins modified with lipids and also to render self-assembly of lipids to a target protein. Herein, we report a facile method of conjugating proteins with lipid-fused peptides under homogeneous physiological conditions by using the microbial transglutaminase (MTG) reaction. MTG catalyzes the cross-linking reaction between a specific glutamine (Q) in a protein and a lysine (K) in newly designed lipid-fused peptides. The water-soluble peptide substrates for lipid modification, C14-X-MRHKGS, were newly synthesized, where C14, X and MRHKGS represent myristic acid, linker peptides composed of G, P or S, and MTG-reactive K surrounded with basic amino acids, respectively. The MTG-mediated cross-linking reaction between a protein fused with LLQG at the C-terminus and C14-X-MRHKGS (5 molar eq.) dissolved in a phosphate saline solution resulted in lipid-protein conjugates with yields of 70 to 100%. The anchoring ability of the obtained lipid-protein conjugates to cell membranes was dependent on the number of G residues in the GnS linker, suggesting that self-assembly and hydrophobicity of the GnS motif serves to enhance membrane anchoring of lipid-protein conjugates.
Full Article
Instrument
J-820
Keywords
Circular dichroism, Secondary structure, Materials, Biochemistry