Rational Approach to Improve Detergent Efficacy for Membrane Protein Stabilization.
Bioconjug Chem
; 35(2): 223-231, 2024 02 21.
Article
in En
| MEDLINE
| ID: mdl-38215010
ABSTRACT
Membrane protein structures are essential for the molecular understanding of diverse cellular processes and drug discovery. Detergents are not only widely used to extract membrane proteins from membranes but also utilized to preserve native protein structures in aqueous solution. However, micelles formed by conventional detergents are suboptimal for membrane protein stabilization, necessitating the development of novel amphiphilic molecules with enhanced protein stabilization efficacy. In this study, we prepared two sets of tandem malonate-derived glucoside (TMG) variants, both of which were designed to increase the alkyl chain density in micelle interiors. The alkyl chain density was modulated either by reducing the spacer length (TMG-Ms) or by introducing an additional alkyl chain between the two alkyl chains of the original TMGs (TMG-Ps). When evaluated with a few membrane proteins including a G protein-coupled receptor, TMG-P10,8 was found to be substantially more efficient at extracting membrane proteins and also effective at preserving protein integrity in the long term compared to the previously described TMG-A13. This result reveals that inserting an additional alkyl chain between the two existing alkyl chains is an effective way to optimize detergent properties for membrane protein study. This new biochemical tool and the design principle described have the potential to facilitate membrane protein structure determination.
Full text:
1
Collection:
01-internacional
Database:
MEDLINE
Main subject:
Detergents
/
Membrane Proteins
Language:
En
Journal:
Bioconjug Chem
Journal subject:
BIOQUIMICA
Year:
2024
Document type:
Article
Affiliation country:
South Korea