Epigenome Microarray Platform for Proteome-Wide Dissection of Chromatin-Signaling Networks
Copyright policy )Epigenome Microarray Platform for Proteome-Wide Dissection of Chromatin-Signaling Networks
Knowledge of protein domains that function as the biological effectors for diverse post-translational modifications of histones is critical for understanding how nuclear and epigenetic programs are established. Indeed, mutations of chromatin effector domains found within several proteins are associated with multiple human pathologies, including cancer and immunodeficiency syndromes. To date, relatively few effector domains have been identified in comparison to the number of modifications present on histone and non-histone proteins. Here we describe the generation and application of human modified peptide microarrays as a platform for high-throughput discovery of chromatin effectors and for epitope-specificity analysis of antibodies commonly utilized in chromatin research. Screening with a library containing a majority of the Royal Family domains present in the human proteome led to the discovery of TDRD7, JMJ2C, and MPP8 as three new modified histone-binding proteins. Thus, we propose that peptide microarray methodologies are a powerful new tool for elucidating molecular interactions at chromatin.
- European Institute of Oncology Italy
- Agency for Science, Technology and Research Singapore
- The University of Texas MD Anderson Cancer Center United States
- Government of the United States of America United States
- National University of Singapore Libraries Singapore
Proteome, arginine, protein JMJ2C, protein binding, protein MPP8, Epigenesis, Genetic, Histones, antibody, protein purification, protein TRD7, binding affinity, cross reaction, binding assay, epitope, Genome, Q, article, R, protein processing, methodology, protein function, Chromatin, unclassified drug, Medicine, signal transduction, Research Article, Protein Binding, Signal Transduction, 570, proteome, Science, Protein Array Analysis, 610, histone, chromatin immunoprecipitation, genetic epigenesis, Antibodies, protein modification, Genetic, human genome, Humans, controlled study, human, protein methylation, protein expression, acetylation, lysine, binding site, Genome, Human, human cell, antibody specificity, protein family, protein phosphorylation, protein analysis, protein microarray, chromatin, metabolism, Epigenesis
Proteome, arginine, protein JMJ2C, protein binding, protein MPP8, Epigenesis, Genetic, Histones, antibody, protein purification, protein TRD7, binding affinity, cross reaction, binding assay, epitope, Genome, Q, article, R, protein processing, methodology, protein function, Chromatin, unclassified drug, Medicine, signal transduction, Research Article, Protein Binding, Signal Transduction, 570, proteome, Science, Protein Array Analysis, 610, histone, chromatin immunoprecipitation, genetic epigenesis, Antibodies, protein modification, Genetic, human genome, Humans, controlled study, human, protein methylation, protein expression, acetylation, lysine, binding site, Genome, Human, human cell, antibody specificity, protein family, protein phosphorylation, protein analysis, protein microarray, chromatin, metabolism, Epigenesis
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