Abstract
We employ error-corrected density functional theory methods to map out the dependence of reactivity on substrate position for SyrB2, a member of a family of non-heme iron halogenases and hydroxylases that are only reactive toward amino acid substrates delivered via prosthetic phosphopantetheine arms. For the initial hydrogen abstraction step, the inherent flexibility of the phosphopantetheine molecule weakens the position dependence for both the native substrate (threonine for SyrB2) and alternative substrates. Over a 5 Å window of substrate positions, the tethered hydrogen abstraction step proceeds with nearly identical activation energies and donor-acceptor distances in the transition state. The propensity of a particular substrate toward halogenation or hydroxylation is found to depend strongly on the substrate placement following hydrogen abstraction, with deeper substrate delivery into the active (for native substrates) site favoring halogenation and shallower substrate delivery favoring hydroxylation.
Highlights
SyrB2 is a non-heme Fe(II) halogenase that reacts on tethered amino acid substrates
We have studied the position-dependent reactivity of a SyrB2 model on native substrate and unnatural amino acid substrates tethered to a truncated form of phosphopantetheine
We have presented a model system for studying the position dependence of substrate reactivity in the active site of the nonheme Fe(II) halogenase SyrB2
Summary
SyrB2 is a non-heme Fe(II) halogenase that reacts on tethered amino acid substrates. Results: Hydroxylation and hydrogen abstraction are less sensitive to substrate positioning at the active site than halogenation. We started from the results of the docked L-Thr-S-PPant structure in SyrB2, and we modified the substrate when studying L-Aba and L-Nva. For each substrate, we carried out three key steps: substrate radical formation, halogenation, and hydroxylation (Scheme 1).
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