Issue 23, 2015

A novel molecular biosensor system model designed by using a couple composed of a fluorescent mutant binding protein and fluorophore-labeled ligand analogue based on the FRET mechanism

Abstract

Molecular biosensors represent a powerful form of biotechnology. In this study, a novel molecular biosensor model was designed based on fluorescence resonance energy transfer (FRET) that was carried out by using a couple composed of a genetically engineered fluorescent mutant binding protein and fluorophore-labeled ligand analogue. The pair of streptavidin and biotin was used as a model here. Trp120BFLAF mutant streptavidin (a fluorescent unnatural amino acid named BODIPY-FL-aminophenylalanine (BFLAF)) was position-specifically incorporated into the Trp120 position of streptavidin by a four-base codon method. The FRET occurred when the Alexa546-biotin was added into the Trp120 BFLAF mutant streptavidin. Furthermore, the FRET between Trp120BFLAF mutant streptavidin and Alexa546-biotin decreased by the competitive addition of natural biotin. This result demonstrated that by measuring the FRET, a couple composed of a genetically engineered fluorescent mutant binding protein (Trp120BFLAF mutant streptavidin) and fluorophore-labeled ligand analogue (Alexa546-biotin) was applicable for the quantification of the small ligand (free biotin) as a molecular biosensor system.

Graphical abstract: A novel molecular biosensor system model designed by using a couple composed of a fluorescent mutant binding protein and fluorophore-labeled ligand analogue based on the FRET mechanism

Article information

Article type
Paper
Submitted
17 Jun 2015
Accepted
18 Oct 2015
First published
23 Oct 2015

Anal. Methods, 2015,7, 9957-9962

A novel molecular biosensor system model designed by using a couple composed of a fluorescent mutant binding protein and fluorophore-labeled ligand analogue based on the FRET mechanism

X. Zhu, H. Shinohara and T. Hohsaka, Anal. Methods, 2015, 7, 9957 DOI: 10.1039/C5AY01559F

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