Anisotropic Dynamics of an Interfacial Enzyme Active Site Observed Using Tethered Substrate Analogs and Ultrafast 2D IR Spectroscopy

12 July 2023, Version 3
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Enzymes accelerate the rates of biomolecular reactions by many orders of magnitude compared to bulk solution, and it is widely understood that this catalytic effect arises from a combination of polar pre-organization and electrostatic transition state stabilization. A number of recent reports have also implicated ultrafast (femtosecond-picosecond) timescale motions in enzymatic activity. However, complications arising from spatially-distributed disorder, the occurrence of multiple substrate binding modes, and the influence of hydration dynamics on solvent-exposed active sites still confound many experimental studies. Here we use ultrafast two-dimensional infrared (2D IR) spectroscopy and covalently-tethered substrate analogs to examine dynamical properties of the promiscuous Pyrococcus horikoshii ene-reductase (PhENR) active site in two binding configurations mimicking proposed ‘inactive’ and ‘reactive’ Michaelis complexes. Spectral diffusion measurements of aryl-nitrile substrate analogs reveal an end-to-end tradeoff between fast (sub-ps) and slow (>5 ps) motions. Fermi resonant aryl-azide analogs that sense interactions of coupled oscillators are described. Lineshape and quantum beat analyses of these probes reveal characteristics that correlate with aryl-nitrile FFCF parameters, demonstrating that dynamical anisotropy is an intrinsic property of the water-exposed active site, where countervailing gradients of fast dynamics and disorder in the reactant ground state are maintained near the hydration interface. Our results suggest several plausible factors leading to state-selective rate enhancement and promiscuity in PhENR. This study also highlights a strategy to detect perturbations to vibrational modes outside the transparent window of the mid-IR spectrum, which may be extended to other macromolecular systems.

Keywords

Enzyme
Dynamics
2D IR spectroscopy
hydration
Fermi resonance

Supplementary materials

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Supplementary Material
Description
Detailed description of data analysis methods. The Supplementary Material also includes figures and tables showing: docking and MD results; UV-vis, FTIR, and SEC characterization of PhENR; IR characterization of 4CN-M; vibrational lifetimes of 4CN-Cys124 & 4CN-Cys155 PhENR; simulated linear spectra of 4CN-Cys124 and 4CN-Cys155 PhENR based on FFCF parameters; FR parameters for 4Az-PEG2000; mode-selective 2D IR spectra of 4Az-M; rephasing and non-rephasing spectra of 4Az-M; and frequency-resolved maps of fit quality for sthe beat maps.
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