Repressor Proteins. Transcriptional Silencing Factors . Proteins, Repressor . Silencing Factors, Transcriptional . Repressor Molecules . Proteins which maintain the transcriptional quiescence of specific GENES or OPERONS. Classical repressor proteins are DNA-binding proteins that are normally bound to the OPERATOR REGION of an operon, or the ENHANCER SEQUENCES of a gene until a signal occurs that causes their release. . 1.00
Co-Repressor Proteins. Co-Repressors . Corepressor Proteins . Corepressors . Nuclear Hormone Receptor Co-Repressors . Nuclear Receptor Co-Repressors . Nuclear Receptor Corepressors . Co Repressor Proteins . Co Repressors . Co-Repressors, Nuclear Receptor . Corepressors, Nuclear Receptor . Nuclear Hormone Receptor Co Repressors . Nuclear Receptor Co Repressors . Receptor Co-Repressors, Nuclear . A subclass of repressor proteins that do not directly bind DNA. Instead, co-repressors generally act via their interaction with DNA-BINDING PROTEINS such as a TRANSCRIPTIONAL SILENCING FACTORS or NUCLEAR RECEPTORS. . 0.83
Iron Regulatory Protein 1. ACO1 Protein . Aconitase 1, Soluble . Ferritin Repressor Protein . IRE-BP1 . IRP-1 Protein . IRP1 Protein . IRE BP1 . IRP 1 Protein . Repressor Protein, Ferritin . Soluble Aconitase 1 . A multifunctional iron-sulfur protein that is both an iron regulatory protein and cytoplasmic form of aconitate hydratase. It binds to iron regulatory elements found on mRNAs involved in iron metabolism and regulates their translation. Its RNA binding ability and its aconitate hydrolase activity are dependent upon availability of IRON. . 0.75
