Mapping protein dynamics at high spatial resolution with temperature-jump X-ray crystallography

Author:

Wolff Alexander M.ORCID,Nango ErikoORCID,Young Iris D.,Brewster Aaron S.ORCID,Kubo MinoruORCID,Nomura Takashi,Sugahara Michihiro,Owada Shigeki,Barad Benjamin A.ORCID,Ito KazutakaORCID,Bhowmick AsmitORCID,Carbajo SergioORCID,Hino Tomoya,Holton James M.ORCID,Im Dohyun,O’Riordan Lee J.,Tanaka Tomoyuki,Tanaka RieORCID,Sierra Raymond G.ORCID,Yumoto Fumiaki,Tono KensukeORCID,Iwata SoORCID,Sauter Nicholas K.ORCID,Fraser James S.ORCID,Thompson Michael C.ORCID

Abstract

AbstractUnderstanding and controlling protein motion at atomic resolution is a hallmark challenge for structural biologists and protein engineers because conformational dynamics are essential for complex functions such as enzyme catalysis and allosteric regulation. Time-resolved crystallography offers a window into protein motions, yet without a universal perturbation to initiate conformational changes the method has been limited in scope. Here we couple a solvent-based temperature jump with time-resolved crystallography to visualize structural motions in lysozyme, a dynamic enzyme. We observed widespread atomic vibrations on the nanosecond timescale, which evolve on the submillisecond timescale into localized structural fluctuations that are coupled to the active site. An orthogonal perturbation to the enzyme, inhibitor binding, altered these dynamics by blocking key motions that allow energy to dissipate from vibrations into functional movements linked to the catalytic cycle. Because temperature jump is a universal method for perturbing molecular motion, the method demonstrated here is broadly applicable for studying protein dynamics.

Funder

National Science Foundation

Publisher

Springer Science and Business Media LLC

Subject

General Chemical Engineering,General Chemistry

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