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  • Construction and in vivo assembly of a catalytically proficient and hyperthermostable de novo enzyme.

Construction and in vivo assembly of a catalytically proficient and hyperthermostable de novo enzyme.

Nature communications (2017-08-27)
Daniel W Watkins, Jonathan M X Jenkins, Katie J Grayson, Nicola Wood, Jack W Steventon, Kristian K Le Vay, Matthew I Goodwin, Anna S Mullen, Henry J Bailey, Matthew P Crump, Fraser MacMillan, Adrian J Mulholland, Gus Cameron, Richard B Sessions, Stephen Mann, J L Ross Anderson
ABSTRACT

Although catalytic mechanisms in natural enzymes are well understood, achieving the diverse palette of reaction chemistries in re-engineered native proteins has proved challenging. Wholesale modification of natural enzymes is potentially compromised by their intrinsic complexity, which often obscures the underlying principles governing biocatalytic efficiency. The maquette approach can circumvent this complexity by combining a robust de novo designed chassis with a design process that avoids atomistic mimicry of natural proteins. Here, we apply this method to the construction of a highly efficient, promiscuous, and thermostable artificial enzyme that catalyzes a diverse array of substrate oxidations coupled to the reduction of H

MATERIALS
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Sigma-Aldrich
Phenazine, 98%