Coactivator (genetics)
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- A Constitutional Variant in the Transcription Factor EP300 Strongly Influences the Clinical Outcome of Patients Submitted to Allo-SCT
- The Coregulator Exchange in Transcriptional Functions of Nuclear Receptors
- Role of the CBP Catalytic Core in Intramolecular Sumoylation and Control of Histone H3 Acetylation
- Regulation of the Transcriptional Coactivator PGC-1 Via MAPK-Sensitive Interaction with a Repressor
- Retinoblastoma Tumor Suppressor Protein Roles in Epigenetic Regulation
- Targeting the SAGA and ATAC Transcriptional Coactivator Complexes in MYC-Driven Cancers
- The Downstream Core Element Is Recognized by TAF1
- P300 Is a Component of an Estrogen Receptor Coactivator Complex
- Snapshot: NR Coregulators Neil J
- Unique Role and Vulnerability of EP300 KIX Domain in Small-Cell Lung Cancer
- Epigenetic Regulation of Cancer Progression by EZH2: from Biological Insights to Therapeutic Potential
- Estrogen Receptor Corepressors – a Role in Human Breast Cancer?
- CBP/P300: Critical Co-Activators for Nuclear Steroid Hormone Receptors and Emerging Therapeutic Targets in Prostate and Breast Cancers
- Targeting the SAGA and ATAC Transcriptional Coactivator Complexes in MYC-Driven Cancers Lisa Maria Mustachio1,2, Jason Roszik3,4, Aimee Farria1,2,5, and Sharon Y.R
- Downloaded from the ENCODE Project Database [6,21]
- Coactivator Corepressor Ratios Modulate PR-Mediated Transcription by the Selective Receptor Modulator RU486
- A TAF4 Coactivator Function for E Proteins That Involves Enhanced TFIID Binding
- The P300 and CBP Transcriptional Coactivators Are Required for Beta Cell and Alpha Cell