Multiplexed In Vivo Imaging with Fluorescence Lifetime‐Modulating Tags

Lina El Hajji; France Lam; Maria Avtodeeva; Hela Benaissa; Christine Rampon; Michel Volovitch; Sophie Vriz; Arnaud Gautier

doi:10.1002/advs.202404354

Advanced Science (Aug 2024)

Multiplexed In Vivo Imaging with Fluorescence Lifetime‐Modulating Tags

Lina El Hajji,
France Lam,
Maria Avtodeeva,
Hela Benaissa,
Christine Rampon,
Michel Volovitch,
Sophie Vriz,
Arnaud Gautier

Affiliations

Lina El Hajji: Sorbonne Université École Normale Supérieure Université PSL CNRS Laboratoire des Biomolécules LBM Paris 75005 France
France Lam: Institut de Biologie Paris Seine plateforme imagerie photonique I2PS (FR3631) Sorbonne Université CNRS Paris 75005 France
Maria Avtodeeva: Sorbonne Université École Normale Supérieure Université PSL CNRS Laboratoire des Biomolécules LBM Paris 75005 France
Hela Benaissa: Sorbonne Université École Normale Supérieure Université PSL CNRS Laboratoire des Biomolécules LBM Paris 75005 France
Christine Rampon: Sorbonne Université École Normale Supérieure Université PSL CNRS Laboratoire des Biomolécules LBM Paris 75005 France
Michel Volovitch: Sorbonne Université École Normale Supérieure Université PSL CNRS Laboratoire des Biomolécules LBM Paris 75005 France
Sophie Vriz: Sorbonne Université École Normale Supérieure Université PSL CNRS Laboratoire des Biomolécules LBM Paris 75005 France
Arnaud Gautier: Sorbonne Université École Normale Supérieure Université PSL CNRS Laboratoire des Biomolécules LBM Paris 75005 France

DOI: https://doi.org/10.1002/advs.202404354
Journal volume & issue: Vol. 11, no. 32
pp. n/a – n/a

Abstract

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Abstract Fluorescence lifetime imaging microscopy (FLIM) opens new dimensions for highly multiplexed imaging in live cells and organisms using differences in fluorescence lifetime to distinguish spectrally identical fluorescent probes. Here, a set of fluorescence‐activating and absorption‐shifting tags (FASTs) capable of modulating the fluorescence lifetime of embedded fluorogenic 4‐hydroxybenzylidene rhodanine (HBR) derivatives is described. It is shown that changes in the FAST protein sequence can vary the local environment of the chromophore and lead to significant changes in fluorescence lifetime. These fluorescence lifetime‐modulating tags enable multiplexed imaging of up to three targets in one spectral channel using a single HBR derivative in live cells and live zebrafish larvae. The combination of fluorescence lifetime multiplexing with spectral multiplexing allows to successfully image six targets in live cells, opening great prospects for multicolor fluorescence lifetime multiplexing.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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