Assembly of transmembrane pores from mirror-image peptides
Document Type
Article
Publication Title
Nature Communications
Abstract
Tailored transmembrane alpha-helical pores with desired structural and functional versatility have promising applications in nanobiotechnology. Herein, we present a transmembrane pore DpPorA, based on the natural pore PorACj, built from D-amino acid α-helical peptides. Using single-channel current recordings, we show that DpPorA peptides self-assemble into uniform cation-selective pores in lipid membranes and exhibit properties distinct from their L-amino acid counterparts. DpPorA shows resistance to protease and acts as a functional nanopore sensor to detect cyclic sugars, polypeptides, and polymers. Fluorescence imaging reveals that DpPorA forms well-defined pores in giant unilamellar vesicles facilitating the transport of hydrophilic molecules. A second D-amino acid peptide based on the polysaccharide transporter Wza forms transient pores confirming sequence specificity in stable, functional pore formation. Finally, molecular dynamics simulations reveal the specific alpha-helical packing and surface charge conformation of the D-pores consistent with experimental observations. Our findings will aid the design of sophisticated pores for single-molecule sensing related technologies.
DOI
10.1038/s41467-022-33155-6
Publication Date
12-1-2022
Recommended Citation
Krishnan R, Smrithi; Jana, Kalyanashis; Shaji, Amina H.; and Nair, Karthika S., "Assembly of transmembrane pores from mirror-image peptides" (2022). Open Access archive. 3684.
https://impressions.manipal.edu/open-access-archive/3684
