Proteomics

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Monitoring cellular phosphorylation signaling pathways into chromatin and down to the gene level


ABSTRACT: Protein phosphorylation, one of the most common and important modifications of acute and reversible regulation of protein function, plays a dominant role in almost all cellular processes. These signaling events regulate cellular responses including proliferation, differentiation, metabolism, survival and apoptosis. Several studies have been successfully used to identify phosphorylated proteins and dynamic changes in phosphorylation status after stimulation. Nevertheless, it is still rather difficult to elucidate precise complex phosphorylation signaling pathways. In particular, how signal transduction pathways directly communicate from the outer cell surface through cytoplasmic space and then directly into chromatin networks to change the transcriptional and epigenetic landscape remains poorly understood. Here we describe the optimization and comparison of methods based on thiophosphorylation affinity enrichment, which can be utilized to monitor phosphorylation signaling into chromatin by isolation of phosphoprotein containing nucleosomes, a method we term phosphorylation-specific chromatin affinity purification (PS-ChAP). We utilized this PS-ChAP approach in combination with quantitative proteomics to identify changes in the phosphorylation status of chromatin bound proteins on nucleosomes following perturbation of transcriptional processes. We also demonstrate that this method can be employed to map phosphoprotein signaling into chromatin containing nucleosomes through identifying the genes those phosphorylated proteins are found on via thiophosphate PS-ChAP-qPCR. Thus, our results showed that PS-ChAP offers a new strategy for studying cellular signaling and chromatin biology, allowing us to directly and comprehensively investigate phosphorylation signaling into chromatin to investigate if these pathways are involved in altering gene expression.

INSTRUMENT(S): LTQ Orbitrap

ORGANISM(S): Homo Sapiens (human)

TISSUE(S): Permanent Cell Line Cell, Hela Cell

SUBMITTER: yumiao han  

LAB HEAD: Benjamin A. Garcia

PROVIDER: PXD002436 | Pride | 2015-11-09

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
12_25_indoacetyl_peptide_PH_4.raw Raw
12_25_indoacetyl_peptide_PH_8.raw Raw
1_17_indoacetyl_protein_PH_4.raw Raw
1_17_indoacetyl_protein_PH_8.raw Raw
1_1_SILAC_MBO_10MIN.raw Raw
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Publications

Monitoring Cellular Phosphorylation Signaling Pathways into Chromatin and Down to the Gene Level.

Han Yumiao Y   Yuan Zuo-Fei ZF   Molden Rosalynn C RC   Garcia Benjamin A BA  

Molecular & cellular proteomics : MCP 20151105 3


Protein phosphorylation, one of the most common and important modifications of acute and reversible regulation of protein function, plays a dominant role in almost all cellular processes. These signaling events regulate cellular responses, including proliferation, differentiation, metabolism, survival, and apoptosis. Several studies have been successfully used to identify phosphorylated proteins and dynamic changes in phosphorylation status after stimulation. Nevertheless, it is still rather dif  ...[more]

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