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Reproducibility in the unfolding process of protein induced by an external electric field

Anna Sinelnikova, Thomas Mandl, Christofer Östlin, Oscar Grånäs, Maxim N. Brodmerkel, Erik G. Marklund, Carl Caleman

2020Chemical Science14 citationsDOIOpen Access PDF

Abstract

The dynamics of proteins are crucial for their function. However, commonly used techniques for studying protein structures are limited in monitoring time-resolved dynamics at high resolution. Combining electric fields with existing techniques to study gas-phase proteins, such as single particle imaging using free-electron lasers and gas-phase small angle X-ray scattering, has the potential to open up a new era in time-resolved studies of gas-phase protein dynamics. Using molecular dynamics simulations, we identify well-defined unfolding pathways of a protein, induced by experimentally achievable external electric fields. Our simulations show that strong electric fields in conjunction with short-pulsed X-ray sources such as free-electron lasers can be a new path for imaging dynamics of gas-phase proteins at high spatial and temporal resolution.

Topics & Concepts

ReproducibilityElectric fieldProcess (computing)Field (mathematics)Computer scienceNanotechnologyMaterials scienceChemistryPhysicsChromatographyMathematicsQuantum mechanicsOperating systemPure mathematicsMicrobial Inactivation MethodsMagnetic and Electromagnetic EffectsMicrofluidic and Bio-sensing Technologies
Reproducibility in the unfolding process of protein induced by an external electric field | Litcius