Site-specific human histone H3 methylation stability: Fast K4me3 turnover

Proteomics

Volumn 14, Issue 19, 2014, Pages 2190-2199

  Zheng, Yupeng ^a   Tipton, Jeremiah D ^a,b   Thomas, Paul M ^a   Kelleher, Neil L ^a   Sweet, Steve M M ^a  

^a NORTHWESTERN UNIVERSITY   (United States)

^b MDS SCIEX   (Canada)

Author keywords

Cell biology; Chromatin; Demethylation; Heterochromatin; Methylation turnover; SILAC; Transcription

Indexed keywords

HISTONE H3; HISTONE H3K4ME3; HISTONE H3K9ME3; UNCLASSIFIED DRUG; CHROMATIN; HISTONE; LYSINE;

ARTICLE; CELL CYCLE PROGRESSION; CELL DIVISION; CELL SYNCHRONIZATION; CONTROLLED STUDY; DNA REPLICATION; ENZYME INHIBITION; FEMALE; HELA CELL LINE; HISTONE DEMETHYLATION; HISTONE METHYLATION; HUMAN; HUMAN CELL; HUMAN CELL CULTURE; NUCLEOSOME; PROTEIN DEGRADATION; PROTEIN LOCALIZATION; PROTEIN STABILITY; PROTEIN SYNTHESIS; REVERSED PHASE HIGH PERFORMANCE LIQUID CHROMATOGRAPHY; TRANSCRIPTION INITIATION SITE; TURNOVER TIME; CHEMISTRY; CHROMATIN; GENE EXPRESSION REGULATION; ISOTOPE LABELING; METABOLISM; METHYLATION;

CHROMATIN; GENE EXPRESSION REGULATION; HELA CELLS; HISTONES; HUMANS; ISOTOPE LABELING; LYSINE; METHYLATION; PROTEIN STABILITY;

EID: 84908074660     PISSN: 16159853     EISSN: 16159861     Source Type: Journal    
DOI: 10.1002/pmic.201400060     Document Type: Article

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