Litcius/Paper detail

Direct Observation of Single-Protein Transition State Passage by Nanopore Ionic Current Jumps

Prabhat Tripathi, Arash Firouzbakht, Martin Gruebele, Meni Wanunu

2022The Journal of Physical Chemistry Letters24 citationsDOI

Abstract

Conformational transitions of proteins are governed by chemical kinetics, often toggled by passage through an activated state separating two conformational ensembles. The passage time of a protein through the activated state can be too fast to be detected by single-molecule experiments without the aid of viscogenic agents. Here, we use high-bandwidth nanopore measurements to resolve microsecond-duration transitions that occur between conformational states of individual protein molecules partly blocking pore current. We measure the transition state passage time between folded and unfolded states of a two-state λ6–85 mutant and between metastable intermediates and the unfolded state of the multistate folder cytochrome c. Consistent with the principle of microscopic reversibility, the transition state passage time is the same for the forward and backward reactions. A passage time distribution whose tail is broader than a single exponential observed in cytochrome c suggests a multidimensional energy landscape for this protein.

Topics & Concepts

MicrosecondMetastabilityChemical physicsNanoporeChemistryIntermediate stateMoleculeKineticsCrystallographyEnergy landscapeIonic bondingBiophysicsMaterials scienceNanotechnologyPhysicsAtomic physicsBiologyIonOrganic chemistryBiochemistryQuantum mechanicsAstronomyNanopore and Nanochannel Transport StudiesIon-surface interactions and analysisstochastic dynamics and bifurcation
Direct Observation of Single-Protein Transition State Passage by Nanopore Ionic Current Jumps | Litcius