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  • Transmembrane protein rotaxanes reveal kinetic traps in the refolding of translocated substrates.

Transmembrane protein rotaxanes reveal kinetic traps in the refolding of translocated substrates.

Communications biology (2020-04-05)
Jianfei Feng, Pablo Martin-Baniandres, Michael J Booth, Gianluca Veggiani, Mark Howarth, Hagan Bayley, David Rodriguez-Larrea
ABSTRACT

Understanding protein folding under conditions similar to those found in vivo remains challenging. Folding occurs mainly vectorially as a polypeptide emerges from the ribosome or from a membrane translocon. Protein folding during membrane translocation is particularly difficult to study. Here, we describe a single-molecule method to characterize the folded state of individual proteins after membrane translocation, by monitoring the ionic current passing through the pore. We tag both N and C termini of a model protein, thioredoxin, with biotinylated oligonucleotides. Under an electric potential, one of the oligonucleotides is pulled through a α-hemolysin nanopore driving the unfolding and translocation of the protein. We trap the protein in the nanopore as a rotaxane-like complex using streptavidin stoppers. The protein is subjected to cycles of unfolding-translocation-refolding switching the voltage polarity. We find that the refolding pathway after translocation is slower than in bulk solution due to the existence of kinetic traps.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
4-(Maleinimido)phenyl isocyanate, purum, ≥97.0% (CHN)
Avanti
4ME 16:0 PC, Avanti Research - A Croda Brand
Avanti
4ME 16:0 PC, Avanti Research - A Croda Brand
Sigma-Aldrich
6-Amino-2-cyanobenzothiazole, 97%