Literature DB >> 29168252

Global substrate specificity profiling of post-translational modifying enzymes.

Sam L Ivry1,2, Nicole O Meyer1, Michael B Winter1, Markus F Bohn1, Giselle M Knudsen1, Anthony J O'Donoghue3, Charles S Craik1.   

Abstract

Enzymes that modify the proteome, referred to as post-translational modifying (PTM) enzymes, are central regulators of cellular signaling. Determining the substrate specificity of PTM enzymes is a critical step in unraveling their biological functions both in normal physiological processes and in disease states. Advances in peptide chemistry over the last century have enabled the rapid generation of peptide libraries for querying substrate recognition by PTM enzymes. In this article, we highlight various peptide-based approaches for analysis of PTM enzyme substrate specificity. We focus on the application of these technologies to proteases and also discuss specific examples in which they have been used to uncover the substrate specificity of other types of PTM enzymes, such as kinases. In particular, we highlight our multiplex substrate profiling by mass spectrometry (MSP-MS) assay, which uses a rationally designed, physicochemically diverse library of tetradecapeptides. We show how this method has been applied to PTM enzymes to uncover biological function, and guide substrate and inhibitor design. We also briefly discuss how this technique can be combined with other methods to gain a systems-level understanding of PTM enzyme regulation and function.
© 2017 The Protein Society.

Keywords:  kinases; mass spectrometry; peptide libraries; peptide synthesis; post-translation modifying enzymes; proteases; substrate specificity

Mesh:

Substances:

Year:  2017        PMID: 29168252      PMCID: PMC5818756          DOI: 10.1002/pro.3352

Source DB:  PubMed          Journal:  Protein Sci        ISSN: 0961-8368            Impact factor:   6.725


  92 in total

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7.  On the size of the active site in proteases. I. Papain.

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Review 4.  Origin and Expansion of the Serine Protease Repertoire in the Myelomonocyte Lineage.

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6.  Substrate Specificity of Cysteine Proteases Beyond the S2 Pocket: Mutagenesis and Molecular Dynamics Investigation of Fasciola hepatica Cathepsins L.

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7.  Activity profiling of peptidases in Angiostrongylus costaricensis first-stage larvae and adult worms.

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8.  Quantitative profiling of protease specificity.

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