Ina Fureraj scite author profile

We report design, synthesis, and evaluation of fluorescent flipper probes for single-molecule super-resolution imaging of membrane tension in living cells. Reversible switching from bright-state ketones to dark-state hydrates, hemiacetals, and hemithioacetals is demonstrated for twisted and planarized mechanophores in solution and membranes. Broadband femtosecond fluorescence up-conversion spectroscopy evinces ultrafast chalcogen-bonding cascade switching in the excited state in solution. According to fluorescence lifetime imaging microscopy, the new flippers image membrane tension in live cells with record red shifts and photostability. Single-molecule localization microscopy with the new tension probes resolves membranes well below the diffraction limit. The imaging of physical forces in living systems is a central challenge in current biology. 1 To contribute solutions, we have introduced small-molecule chemistry tools to image membrane tension in living cells. 2Based on the concept of planarizable push-pull probes, 3,4 the so-called flipper probes allowed us to image the change of plasma 5 and organellar membrane tension in living cells. 6 Flipper probes are twisted dithienothiophene (DTT) push-pull dimers (Figure 1a). Their mechanical planarization in the ground state

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Wavelength-Selective Nonlinear Imaging and Photo-Induced Cell Damage by Dielectric Harmonic Nanoparticles

Kilin

Campargue

Fureraj

et al. 2020

ACS Nano

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Torsional disorder and planarization dynamics: 9,10-bis(phenylethynyl)anthracene as a case study

Fureraj

Budkina

Vauthey

2022

Phys. Chem. Chem. Phys.

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Phonon-Mediated Attractive Interactions between Excitons in Lead-Halide-Perovskites

Yazdani¹,

Bodnarchuk²,

Bertolotti³

et al. 2022

Preprint

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Halogen-Bond Assisted Photoinduced Electron Transfer

et al. 2019

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The formation of a halogen-bond (XB) complex in the excited state was recently reported with a quadrupolar acceptor–donor–acceptor dye in two iodine-based liquids (J. Phys. Chem. Lett. 2017, 8, 3927–3932). The ultrafast decay of this excited complex to the ground state was ascribed to an electron transfer quenching by the XB donors. We examined the mechanism of this process by investigating the quenching dynamics of the dye in the S1 state using the same two iodo-compounds diluted in inert solvents. The results were compared with those obtained with a non-halogenated electron acceptor, fumaronitrile. Whereas quenching by fumaronitrile was found to be diffusion controlled, that by the two XB compounds is slower, despite a larger driving force for electron transfer. A Smoluchowski–Collins–Kimball analysis of the excited-state population decays reveals that both the intrinsic quenching rate constant and the quenching radius are significantly smaller with the XB compounds. These results point to much stronger orientational constraint for quenching with the XB compounds, indicating that electron transfer occurs upon formation of the halogen bond.

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Halogen-Bond Assisted Photoinduced Electron Transfer

Dereka

Fureraj

Vauthey

2019

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Ina Fureraj

Fluorescent Membrane Tension Probes for Super-Resolution Microscopy: Combining Mechanosensitive Cascade Switching with Dynamic-Covalent Ketone Chemistry

Wavelength-Selective Nonlinear Imaging and Photo-Induced Cell Damage by Dielectric Harmonic Nanoparticles

Torsional disorder and planarization dynamics: 9,10-bis(phenylethynyl)anthracene as a case study

Phonon-Mediated Attractive Interactions between Excitons in Lead-Halide-Perovskites

Halogen-Bond Assisted Photoinduced Electron Transfer

Halogen-Bond Assisted Photoinduced Electron Transfer

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