Protein Design: Reengineering Cellular Retinoic Acid Binding Protein II into a Rhodopsin Protein Mimic

Overview

Journal J Am Chem Soc

Publisher American Chemical Society

Specialty Chemistry

Date 2007 Apr 24

PMID 17447762

Citations 27

Authors

Chrysoula Vasileiou

Soheila Vaezeslami

Rachael M Crist

Montserrat Rabago-Smith

James H Geiger

Babak Borhan

Affiliations

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Abstract

Rational redesign of the binding pocket of Cellular Retinoic Acid Binding Protein II (CRABPII) has provided a mutant that can bind retinal as a protonated Schiff base, mimicking the binding observed in rhodopsin. The reengineering was accomplished through a series of choreographed manipulations to ultimately orient the reactive species (the epsilon-amino group of Lys132 and the carbonyl of retinal) in the proper geometry for imine formation. The guiding principle was to achieve the appropriate Bürgi-Dunitz trajectory for the reaction to ensue. Through crystallographic analysis of protein mutants incapable of forming the requisite Schiff base, a highly ordered water molecule was identified as a key culprit in orienting retinal in a nonconstructive manner. Removal of the ordered water, along with placing reinforcing mutations to favor the desired orientation of retinal, led to a triple mutant CRABPII protein capable of nanomolar binding of retinal as a protonated Schiff base. The high-resolution crystal structure of all-trans-retinal bound to the CRABPII triple mutant (1.2 A resolution) unequivocally illustrates the imine formed between retinal and the protein.

Citing Articles

Control of Protonated Schiff Base Excited State Decay within Visual Protein Mimics: A Unified Model for Retinal Chromophores.

Demoulin B, Maiuri M, Berbasova T, Geiger J, Borhan B, Garavelli M Chemistry. 2021; 27(66):16389-16400.

PMID: 34653286 PMC: 8906800. DOI: 10.1002/chem.202102383.

NeoR, a near-infrared absorbing rhodopsin.

Broser M, Spreen A, Konold P, Schiewer E, Adam S, Borin V Nat Commun. 2020; 11(1):5682.

PMID: 33173168 PMC: 7655827. DOI: 10.1038/s41467-020-19375-8.

Selective Colorimetric "Turn-On" Probe for Efficient Engineering of Iminium Biocatalysis.

Biewenga L, Crotti M, Saifuddin M, Poelarends G ACS Omega. 2020; 5(5):2397-2405.

PMID: 32064400 PMC: 7017405. DOI: 10.1021/acsomega.9b03849.

Engineering the hCRBPII Domain-Swapped Dimer into a New Class of Protein Switches.

Ghanbarpour A, Pinger C, Esmatpour Salmani R, Assar Z, Santos E, Nosrati M J Am Chem Soc. 2019; 141(43):17125-17132.

PMID: 31557439 PMC: 7358038. DOI: 10.1021/jacs.9b04664.

Engineering of a Red Fluorogenic Protein/Merocyanine Complex for Live-Cell Imaging.

Santos E, Berbasova T, Wang W, Esmatpour Salmani R, Sheng W, Vasileiou C Chembiochem. 2019; 21(5):723-729.

PMID: 31482666 PMC: 7379159. DOI: 10.1002/cbic.201900428.