Computational design of environmental sensors for the potent opioid fentanyl

Bick, Matthew J; Greisen, Per J; Morey, Kevin J; Antunes, Mauricio S; La, David; Sankaran, Banumathi; Reymond, Luc; Johnsson, Kai; Medford, June I; Baker, David

doi:10.7554/eLife.28909

Bick, Matthew J; Greisen, Per J; Morey, Kevin J; Antunes, Mauricio S; La, David; Sankaran, Banumathi; Reymond, Luc; Johnsson, Kai; Medford, June I; Baker, David

2017

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Abstract

We describe the computational design of proteins that bind the potent analgesic fentanyl. Our approach employs a fast docking algorithm to find shape complementary ligand placement in protein scaffolds, followed by design of the surrounding residues to optimize binding affinity. Co-crystal structures of the highest affinity binder reveal a highly preorganized binding site, and an overall architecture and ligand placement in close agreement with the design model. We use the designs to generate plant sensors for fentanyl by coupling ligand binding to design stability. The method should be generally useful for detecting toxic hydrophobic compounds in the environment.

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Title Computational design of environmental sensors for the potent opioid fentanyl

Author(s) Bick, Matthew J ; Greisen, Per J ; Morey, Kevin J ; Antunes, Mauricio S ; La, David ; Sankaran, Banumathi ; Reymond, Luc ; Johnsson, Kai ; Medford, June I ; Baker, David

Published in eLife

Pagination 23

Volume 6

Date 2017

Publisher Cambridge, Elife Sciences Publications Ltd

ISSN 2050-084X

DOI https://doi.org/10.7554/eLife.28909

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Laboratories LIP

Record Appears in Scientific production and competences > SB - School of Basic Sciences > ISIC - Institute of Chemical Sciences and Engineering > LIP - Laboratory of Protein Engineering
Peer-reviewed publications
Work produced at EPFL
Journal Articles
Published

Record creation date 2017-09-25

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