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Abstract
A complete understanding of enzyme mechanisms requires atomistic details of chemical reactions. Quantum-based molecular dynamics simulations (QMD) are a potential source of this information, but tradeoffs between accuracy and computational cost have limited their use. Here, we develop a reactive QMD approach to investigate mechanisms of isocyanide hydratase (ICH) catalysis. In QMD simulations, molecular analogs of ICH active site residues reacted with para-nitrophenol isocyanide, forming a thioimidate intermediate. Analysis of simulated atomic configurational and charge dynamics revealed a pathway where protonation of the isocyanide carbon occurs prior to thioimidate formation. X-ray crystallography and functional assays of ICH mutants suggest this order of events might occur during enzyme catalysis. Mobile protons play essential roles in many enzymes, yet they are difficult to observe experimentally, making the ordering of proton-dependent steps ambiguous in many enzyme mechanisms. The ability to directly simulate reactions relevant to enzyme catalysis involving mobile protons demonstrates the significance of our reactive QMD approach and motivates further biological applications.
Supplementary materials
Title
Supplementary Text and Figures
Description
Supplementary information and figures referenced directly in the main manuscript. Contains details on parameterization, algorithm development, and an additional simulation system.
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Title
Full simulation trajectory
Description
Compressed file containing a custom XYZ formatted file with molecular dynamics trajectory snapshots across the full 50 ps production trajectory. The GPMDK XYZ files contain five columns indicating element name, X/Y/Z coordinates, and atomic Mulliken population.
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Title
GPMDK Production Run Files
Description
Zipped archive of the files needed to run the GPMDK production simulation of the main ICH test system. Also contains a README file describing each file and where to get additional information on building/running GPMDK
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Title
SIESTA Tutorial
Description
Zipped archive containing the files necessary to run the DFT calculations on both protonated and unprotonated pNPIC using SIESTA
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