Patrick Raunft scite author profile

Targeted covalent inhibitors are powerful entities in drug discovery, but their application has so far mainly been limited to addressing cysteine residues. The development of cysteine-directed covalent inhibitors has largely profited from determining their proteome-wide selectivity using competitive residue-specific proteomics. Several probes have recently been described to monitor other amino acids using this technology and many more electrophiles exist to modify proteins. Nevertheless, a direct, proteome-wide comparison of the selectivity of diverse probes is still entirely missing. Here, we developed a completely unbiased workflow to analyse electrophile selectivity proteome-wide and applied it to directly compare 54 alkyne probes containing diverse reactive groups. In this way, we verified and newly identified probes to monitor a total of nine different amino acids as well as the N-terminus proteome-wide. This selection includes the first probes to globally monitor tryptophans, histidines and arginines as well as novel tailored probes for methionines, aspartates and glutamates.

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Profiling the Proteome-Wide Selectivity of Diverse Electrophiles

Zanon¹,

Yu²,

Zhang³

et al. 2021

Preprint

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<p><a>Targeted covalent inhibitors are powerful entities in drug discovery, but their application has so far mainly been limited to addressing cysteine residues. The development of cysteine-directed covalent inhibitors has largely profited from determining their proteome-wide selectivity using competitive residue-specific proteomics. Several probes have recently been described to monitor other amino acids using this technology and many more electrophiles exist to modify proteins. Nevertheless, a direct, proteome‑wide comparison of the selectivity of diverse probes is still entirely missing. Here, we developed a completely unbiased workflow to analyse electrophile selectivity proteome‑wide and applied it to directly compare 54 alkyne probes containing diverse reactive groups. In this way, we verified and newly identified probes to monitor a total of nine different amino acids as well as the <i>N</i>‑terminus proteome‑wide. This selection includes the first probes to globally monitor tryptophans, histidines and arginines as well as novel tailored probes for methionines, aspartates and glutamates.</a></p>

show abstract

Profiling the Proteome-Wide Selectivity of Diverse Electrophiles

Zanon¹,

Yuan²,

Zhang³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

Profiling the proteome-wide selectivity of diverse electrophiles

Zanon

Zhang

et al. 2021

Preprint

View full text Add to dashboard Cite

Targeted covalent inhibitors are powerful entities in drug discovery, but their application has so far mainly been limited to addressing cysteine residues. The development of cysteine-directed covalent inhibitors has largely profited from determining their proteomewide selectivity using competitive residue-specific proteomics. Several probes have recently been described to monitor other amino acids using this technology and many more electrophiles exist to modify proteins. Nevertheless, a direct, proteome-wide comparison of the selectivity of diverse probes is still entirely missing. Here, we developed a completely unbiased workflow to analyse electrophile selectivity proteome-wide and applied it to directly compare 54 alkyne probes containing diverse reactive groups. In this way, we verified and newly identified probes to monitor a total of nine different amino acids as well as the N-terminus proteome-wide. This selection includes the first probes to globally monitor tryptophans, histidines and arginines as well as novel tailored probes for methionines, aspartates and glutamates.

show abstract

PNA-Based Dynamic Combinatorial Libraries (PDCL) and screening of lectins

Farrera-Soler

Daguer

Raunft

et al. 2020

Bioorganic & Medicinal Chemistry

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Patrick Raunft

Profiling the proteome-wide selectivity of diverse electrophiles

Profiling the Proteome-Wide Selectivity of Diverse Electrophiles

Profiling the Proteome-Wide Selectivity of Diverse Electrophiles

Profiling the proteome-wide selectivity of diverse electrophiles

PNA-Based Dynamic Combinatorial Libraries (PDCL) and screening of lectins

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