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Literature DB >> 27423856

Substrate Specificity Profiling of Histone-Modifying Enzymes by Peptide Microarray.

E M Cornett¹, B M Dickson¹, R M Vaughan¹, S Krishnan², R C Trievel², B D Strahl³, S B Rothbart⁴.

Abstract

The dynamic addition and removal of covalent posttranslational modifications (PTMs) on histone proteins serves as a major mechanism regulating chromatin-templated biological processes in eukaryotic genomes. Histone PTMs and their combinations function by directly altering the physical structure of chromatin and as rheostats for effector protein interactions. In this chapter, we detail microarray-based methods for analyzing the substrate specificity of lysine methyltransferase and demethylase enzymes on immobilized synthetic histone peptides. Consistent with the "histone code" hypothesis, we reveal a strong influence of adjacent and, surprisingly, distant histone PTMs on the ability of histone-modifying enzymes to methylate or demethylate their substrates. This platform will greatly facilitate future investigations into histone substrate specificity and mechanisms of PTM signaling that regulate the catalytic properties of histone-modifying enzymes.

Entities: CellLine Chemical Disease Gene Species

Keywords: Chromatin; Demethylases; Epigenetics; Erasers; Histone code; Histones; Methyltransferases; Peptide microarray; Posttranslational modifications; Writers

Mesh：

Substances：

Year: 2016 PMID： 27423856 PMCID： PMC5322744 DOI： 10.1016/bs.mie.2016.01.008

Source DB: PubMed Journal: Methods Enzymol ISSN： 0076-6879 Impact factor: 1.600

44 in total

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9. Peptide microarrays to interrogate the "histone code".

Authors: Scott B Rothbart; Krzysztof Krajewski; Brian D Strahl; Stephen M Fuchs
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10. Protein lysine methyltransferase G9a acts on non-histone targets.

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5. Comparative biochemical analysis of UHRF proteins reveals molecular mechanisms that uncouple UHRF2 from DNA methylation maintenance.

Authors: Robert M Vaughan; Bradley M Dickson; Evan M Cornett; Joseph S Harrison; Brian Kuhlman; Scott B Rothbart
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