| P50 | author | Shelley L. Berger | Q51827958 |
| | Philipp Mews | Q82295694 |
| | Barry M Zee | Q83928836 |
| P2093 | author name string | Benjamin A Garcia | |
| | Greg Donahue | |
| | Sherry Liu | |
| P2860 | cites work | Ultrafast and memory-efficient alignment of short DNA sequences to the human genome | Q21183894 |
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| | H2B Ubiquitylation Acts as a Barrier to Ctk1 Nucleosomal Recruitment Prior to Removal by Ubp8 within a SAGA-Related Complex | Q54998786 |
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| | Stable isotope labeling by amino acids in cell culture, SILAC, as a simple and accurate approach to expression proteomics | Q28131742 |
| | Distinct and predictive chromatin signatures of transcriptional promoters and enhancers in the human genome | Q28131828 |
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| | The nexus of chromatin regulation and intermediary metabolism. | Q34379834 |
| | Metabolic status rather than cell cycle signals control quiescence entry and exit | Q34712474 |
| | Acetyl-CoA induces cell growth and proliferation by promoting the acetylation of histones at growth genes. | Q35027765 |
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| | Origins and formation of histone methylation across the human cell cycle. | Q36210887 |
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| | Histone methyl transferases and demethylases; can they link metabolism and transcription? | Q36812958 |
| | Structure and mechanism of lysine-specific demethylase enzymes | Q36952934 |
| | Chemical mechanisms of histone lysine and arginine modifications | Q37097824 |
| | Influence of metabolism on epigenetics and disease | Q37177814 |
| | Methionine adenosyltransferase II serves as a transcriptional corepressor of Maf oncoprotein | Q39583808 |
| | Control of the reversibility of cellular quiescence by the transcriptional repressor HES1. | Q39948403 |
| | NNMT promotes epigenetic remodeling in cancer by creating a metabolic methylation sink | Q39968449 |
| | Influence of threonine metabolism on S-adenosylmethionine and histone methylation | Q40648296 |
| | Histone H4 acetylation during interleukin-2 stimulation of mouse T cells. | Q40997382 |
| | Accelerated nuclei preparation and methods for analysis of histone modifications in yeast | Q41096693 |
| | Metabolic regulation of epigenetics | Q41942880 |
| | A glycolytic burst drives glucose induction of global histone acetylation by picNuA4 and SAGA. | Q42075509 |
| | In vivo turnover and distribution of radio-N-methyl in arginine-rich histones from rat tissues | Q44406484 |
| | Connecting threads: epigenetics and metabolism | Q46493363 |
| | Coordinated regulation of growth genes in Saccharomyces cerevisiae. | Q51007087 |
| | Genome-wide analyses reveal RNA polymerase II located upstream of genes poised for rapid response upon S. cerevisiae stationary phase exit. | Q51593177 |
| P433 | issue | 21 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | histone acetylation | Q14908264 |
| P304 | page(s) | 3968-3980 | |
| P577 | publication date | 2014-08-25 | |
| P1433 | published in | Molecular and Cellular Biology | Q3319478 |
| P1476 | title | Histone methylation has dynamics distinct from those of histone acetylation in cell cycle reentry from quiescence | |
| P478 | volume | 34 | |