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Themed collection Chemical Proteomics

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8 items

Finding a vocation for validation: taking proteomics beyond association and location

Marcus J. C. Long, Jinmin Liu and Yimon Aye

We discuss modern quantitative proteomics tools and underlying experimental design principles, to help readers chose suitable methods and workflows, as well as analyses and functional validation of the resulting data and targets.

Graphical abstract: Finding a vocation for validation: taking proteomics beyond association and location

From the themed collection: Chemical Proteomics

Chemoproteomic mapping of human milk oligosaccharide (HMO) interactions in cells

Abdullah A. Hassan, Jacob M. Wozniak, Zak Vilen, Weichao Li, Appaso Jadhav, Christopher G. Parker and Mia L. Huang

Human milk oligosaccharides (HMOs) are a family of unconjugated soluble glycans found in human breast milk that exhibit a myriad of biological activity.

Graphical abstract: Chemoproteomic mapping of human milk oligosaccharide (HMO) interactions in cells

From the themed collection: Chemical Proteomics

Quantitative profiling of PTM stoichiometry by resolvable mass tags

Ying Chen, Baiyi Quan, Yuanpei Li, Yuan Liu, Wei Qin and Chu Wang

Post-translational modifications (PTMs) play important roles in modulating the biological functions of proteins.

Graphical abstract: Quantitative profiling of PTM stoichiometry by resolvable mass tags

From the themed collection: Chemical Proteomics

Predicting small molecule binding pockets on diacylglycerol kinases using chemoproteomics and AlphaFold

Roberto Mendez, Minhaj Shaikh, Michael C. Lemke, Kun Yuan, Adam H. Libby, Dina L. Bai, Mark M. Ross, Thurl E. Harris and Ku-Lung Hsu

We provide a family-wide assessment of accessible sites for covalent targeting that combined with AlphaFold revealed predicted small molecule binding pockets for guiding future inhibitor development of the DGK superfamily.

Graphical abstract: Predicting small molecule binding pockets on diacylglycerol kinases using chemoproteomics and AlphaFold

From the themed collection: Chemical Proteomics

Photoreactive bioorthogonal lipid probes and their applications in mammalian biology

Karthik Shanbhag, Kavita Sharma and Siddhesh S. Kamat

This review summarizes the recent advances in the development of photoreactive bioorthogonal lipid probes, and the use of these lipid probes in mapping diverse biological pathways in mammalian cells using emerging chemoproteomic approaches.

Graphical abstract: Photoreactive bioorthogonal lipid probes and their applications in mammalian biology

From the themed collection: Chemical Proteomics

Chemical proteomic analysis of bile acid-protein targets in Enterococcus faecium

Xinglin Yang, Xiaohui Zhao, Victor Chen and Howard C. Hang

Chemoproteomics of bile acid-protein targets reveals a bile salt hydrolase in Enterococcus faecium.

Graphical abstract: Chemical proteomic analysis of bile acid-protein targets in Enterococcus faecium

From the themed collection: Chemical Proteomics

A peptide-crosslinking approach identifies HSPA8 and PFKL as selective interactors of an actin-derived peptide containing reduced and oxidized methionine

Aaron Maurais and Eranthie Weerapana

A peptide crosslinking approach facilitates the identification of proteins that selectively interact with actin-derived peptides containing oxidized and reduced methionine residues.

Graphical abstract: A peptide-crosslinking approach identifies HSPA8 and PFKL as selective interactors of an actin-derived peptide containing reduced and oxidized methionine

From the themed collection: Chemical Proteomics

The covalent reactivity of functionalized 5-hydroxy-butyrolactams is the basis for targeting of fatty acid binding protein 5 (FABP5) by the neurotrophic agent MT-21

Esben B. Svenningsen, Rasmus N. Ottosen, Katrine H. Jørgensen, Marija Nisavic, Camilla K. Larsen, Bente K. Hansen, Yong Wang, Kresten Lindorff-Larsen, Thomas Tørring, Stephan M. Hacker, Johan Palmfeldt and Thomas B. Poulsen

In this work, it is shown that an N-acyl hemiaminal motif present in many natural products can function as an electrophilic centre, mediating covalent reactivity in biological systems, reacting with both thiols and amines.

Graphical abstract: The covalent reactivity of functionalized 5-hydroxy-butyrolactams is the basis for targeting of fatty acid binding protein 5 (FABP5) by the neurotrophic agent MT-21

From the themed collection: Chemical Proteomics

8 items

About this collection

This collection, Guest Edited by Dr Keriann Backus (UCLA, USA) and Dr Stephan Hacker (Leiden University, Netherlands), highlights work on applications of chemoproteomics to study the targets and off-targets of covalent and non-covalent inhibitors, to study the reactivity of amino acids in the proteome, to develop new reactive groups for photocrosslinkers, covalent inhibitors and protein labeling as well as to study post-translational modifications and cofactor binding proteome-wide.

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