Katharine Gilbert scite author profile

Katharine Gilbert

3Publications

67Citation Statements Received

110Citation Statements Given

How they've been cited

How they cite others

109

Affiliations

University of Strathclyde, GlaxoSmithKline (United Kingdom)

Publications

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Profiling Sulfur(VI) Fluorides as Reactive Functionalities for Chemical Biology Tools and Expansion of the Ligandable Proteome

et al. 2023

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Here, we report a comprehensive profiling of sulfur(VI) fluorides (S VI -Fs) as reactive groups for chemical biology applications. S VI -Fs are reactive functionalities that modify lysine, tyrosine, histidine, and serine sidechains. A panel of S VI -Fs were studied with respect to hydrolytic stability and reactivity with nucleophilic amino acid sidechains. The use of S VI -Fs to covalently modify carbonic anhydrase II (CAII) and a range of kinases was then investigated. Finally, the S VI -F panel was used in live cell chemoproteomic workflows, identifying novel protein targets based on the type of S VI -F used. This work highlights how S VI -F reactivity can be used as a tool to expand the liganded proteome.

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Profiling Sulfur(VI) Fluorides as Reactive Functionalities for Chemical Biology Tools and Expansion of the Ligandable Proteome

Gilbert

Vuorinen

Aatkar

et al. 2022

Preprint

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Chemical probes are valuable tools to explore the function of proteins. Incorporation of electrophiles into small molecules enables covalent capture of protein interactions and provides access to powerful technologies including chemoproteomic profiling and reactive fragment screening. Current approaches have been largely limited to protein pockets containing cysteine, so establishing strategies to target other amino acid residues is essential to expanding the applicability across the proteome. Here, we profiled sulfur(VI) fluorides (SVI-F) as reactive functionalities that can modify multiple residues including Lys, Tyr, His and Ser, thus offering utility for targeting almost any protein. These studies provided an in-depth understanding of SVI-F functionalities, including hydrolytic stability, protein reactivity and utility in chemoproteomics. Such insights offer a valuable guide for the prospective design of SVI-F-containing ligands for various chemical biology workflows and illustrate the wide range of proteins that SVI-Fs can capture, thus highlighting the opportunity for SVI-Fs to expand the liganded proteome.

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Efficient Ligand Discovery Using Sulfur(VI) Fluoride Reactive Fragments

Aatkar

Vuorinen

Longfield

et al. 2022

Preprint

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Sulfur(VI) fluorides (SFs) have emerged as valuable electrophiles for the design of 'beyond cysteine' covalent inhibitors, and offer potential for expansion of the liganded proteome. Since SFs target a broad range of nucleophilic amino acids, they deliver an approach for the covalent modification of proteins without requirement for a proximal cysteine residue. Further to this, libraries of reactive fragments present an innovative approach for the discovery of ligands and tools for proteins of interest by leveraging a breadth of mass spectrometry analytical approaches. Herein, we report a screening approach that exploits the unique properties of SFs for this purpose. Libraries of SF-containing reactive fragments were synthesised, and a direct-to-biology workflow was taken to efficiently identify hit compounds for CAII and BCL6. The most promising hits were further characterised to establish the site(s) of covalent modification, modification kinetics, and target engagement in cells. Crystallography was used to gain a detailed molecular understanding of how these reactive fragments bind to their target. It is anticipated that this screening protocol can be used for the accelerated discovery of ‘beyond cysteine’ covalent inhibitors.

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