Litcius/Paper detail

Absolute measurement of cellular activities using photochromic single-fluorophore biosensors and intermittent quantification

Franziska Bierbuesse, Anaïs C. Bourgès, Vincent Gielen, Viola Mönkemöller, Wim Vandenberg, Yi Shen, Johan Hofkens, Pieter Vanden Berghe, Robert E. Campbell, Benjamien Moeyaert, Peter Dedecker

2022Nature Communications43 citationsDOIOpen Access PDF

Abstract

Abstract Genetically-encoded biosensors based on a single fluorescent protein are widely used to visualize analyte levels or enzymatic activities in cells, though usually to monitor relative changes rather than absolute values. We report photochromism-enabled absolute quantification (PEAQ) biosensing, a method that leverages the photochromic properties of biosensors to provide an absolute measure of the analyte concentration or activity. We develop proof-of-concept photochromic variants of the popular GCaMP family of Ca 2+ biosensors, and show that these can be used to resolve dynamic changes in the absolute Ca 2+ concentration in live cells. We also develop intermittent quantification, a technique that combines absolute aquisitions with fast fluorescence acquisitions to deliver fast but fully quantitative measurements. We also show how the photochromism-based measurements can be expanded to situations where the absolute illumination intensities are unknown. In principle, PEAQ biosensing can be applied to other biosensors with photochromic properties, thereby expanding the possibilities for fully quantitative measurements in complex and dynamic systems.

Topics & Concepts

BiosensorPhotochromismFluorophoreAnalyteFluorescent proteinFluorescenceMaterials scienceNanotechnologyBiological systemComputer scienceChemistryOpticsPhysicsChromatographyBiochemistryBiologyGreen fluorescent proteinGenePhotochromic and Fluorescence ChemistryAdvanced Fluorescence Microscopy TechniquesNeurobiology and Insect Physiology Research