# Biocompatible Sulfonium-Based Covalent Probes For Endogenous Tubulin Fluorescence Nanoscopy In Live And Fixed Cells

**Authors:** Gražvydas Lukinavičius, Marie Auvray, Tanja Koenen, Olexandr Dybkov, Henning Urlaub

PMC · DOI: 10.21203/rs.3.rs-5922324/v1 · 2025-02-04

## TL;DR

This paper introduces a new biocompatible fluorescent probe for imaging tubulin in live and fixed cells with high resolution.

## Contribution

A novel covalent probe with a cleavable sulfonium linker enables non-disruptive, high-resolution imaging of endogenous tubulin.

## Key findings

- The probe 6-SiR-o-C9-CTX shows excellent cell permeability and fluorogenic properties.
- Tubulin staining is preserved after washing out the targeting moiety, minimizing functional disruption.
- The technique is compatible with STED nanoscopy in both live and fixed cells.

## Abstract

Fluorescent probes enable the visualization of dynamic cellular processes with high precision, particularly when coupled with super-resolution imaging techniques that surpass the diffraction limit. Traditional methods include fluorescent protein fusion (e.g., GFP) or organic fluorophores linked to ligands targeting the protein of interest. However, these approaches often introduce functional disruptions or ligand-associated biological effects. Herein, we address these challenges by developing covalent fluorescent probes for endogenous tubulin, a critical cytoskeletal protein involved in processes such as cell movement, division, and biomolecule trafficking. Using well-known tubulin binder cabazitaxel and cell permeable fluorophore silicon-rhodamine as a basis, we introduce a novel biocompatible cleavable linker containing a sulfonium center. This allowed the construction of the optimized probe, 6-SiR-o-C9-CTX, demonstrating excellent cell permeability, fluorogenic properties, and the ability to covalently label tubulin across various human cell lines. Importantly, the targeting moiety could be washed out while preserving tubulin staining, ensuring minimal disruption of tubulin function. This labeling technique is compatible with STED nanoscopy in both live and fixed cells, offering a powerful high-resolution imaging tool.

## Linked entities

- **Proteins:** gammaTub23C (gamma-Tubulin at 23C)
- **Chemicals:** cabazitaxel (PubChem CID 9854073)

## Full-text entities

- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11838727/full.md

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Source: https://tomesphere.com/paper/PMC11838727