Abstract
Fluorescence-based probes, especially those that utilize Förster resonance energy transfer (FRET) between fluorescent protein (FP) variants, are widely used to monitor various biological phenomena, most often detecting its ligand-induced conformational change through the receptor domain. While antibody provides a fertile resource of a specific receptor for various biomolecules, its potential has not been fully exploited. An exception is a pair of donor FP-fused VH and acceptor FP-fused VL fragments, which has been proven useful when their association increases in the presence of antigen (open sandwich fluoroimmunoassay, OS-FIA). However, probes for larger proteins such as serum albumin (SA) were difficult to produce, since the interaction between VH and VL of these antibodies is barely affected by the bound antigen. Here, we propose a novel strategy, called open flower fluoroimmunoassay (OF-FIA), using a probe composed of a donor-fused VH and an acceptor-fused VL linked by a disulfide bond between VH and VL (CyPet/YPet-dsFv). The probe gave high FRET efficiency due to the dimerization propensity of the FP pair, while the efficiency got lower as SA concentration increased, probably due to dimer disruption. The constructed probe could detect clinically relevant range of SA, showing its potential as a diagnostic reagent.
Highlights
B iomarkers are measurable substances that can monitor the state of biological processes, pathogenic processes, or pharmacological responses.[1]
We made several antibody-fluorescent protein (FP) fusion Förster resonance energy transfer (FRET) probes based on the open sandwich immunoassay principle.[8]
As an extension of fluorescent protein (FP)-based open sandwich immunoassay, we developed a novel antibody-based FRET assay, termed open flower fluoroimmunoassay
Summary
B iomarkers are measurable substances that can monitor the state of biological processes, pathogenic processes, or pharmacological responses.[1]. We demonstrate that OF-FIA, using a simple FP-based FRET immunosensor probe, could detect a clinically important protein antigen serum albumin (SA) via simple fluorescence spectroscopy. His6For. The product was inserted to SgrAI-digested pET_Ypet-G3S2-VL(SA)Q100C plasmid, resulting in pET_CyPet/YPet-dsFv. Fluorescent Proteins with a Dimer Interface Mutation.
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