" /> transcription factor ap-2 - CISMeF





Preferred Label : transcription factor ap-2;

MeSH definition : A family of DNA binding proteins that regulate expression of a variety of GENES during CELL DIFFERENTIATION and APOPTOSIS. Family members contain a highly conserved carboxy-terminal basic HELIX-TURN-HELIX MOTIF involved in dimerization and sequence-specific DNA binding.;

MeSH synonym : ap 2 enhancer binding protein; ap-2, activator protein; ap-2, transcription factor; enhancer binding protein ap 2; enhancer-binding protein ap-2; transcription factor ap2; ap-2 enhancer binding protein; ap-2, enhancer-binding protein; activator protein ap-2; activator protein ap 2; transcription factor AP 2;

MeSH hyponym : transcription factor AP-2 beta protein; transcription factor AP-2 gamma protein; transcription factor AP-2 epsilon protein; transcription factor AP-2 alpha protein; transcription factor AP-2 delta protein; Transcription Factor AP 2 epsilon Protein; Transcription Factor AP-2epsilon; AP-2epsilon, Transcription Factor; Transcription Factor AP 2epsilon; AP-2 epsilon Protein; Transcription Factor AP 2 beta Protein; TFAP2B Protein; Transcription Factor AP-2beta; AP-2beta, Transcription Factor; Transcription Factor AP 2beta; AP-2 beta Protein; AP 2 beta Protein; Transcription Factor AP 2 delta Protein; Transcription Factor Ap-2delta; Ap-2delta, Transcription Factor; Transcription Factor Ap 2delta; AP-2delta Protein; AP 2delta Protein; Transcription Factor AP 2 gamma Protein; Transcription Factor AP-2gamma; AP-2gamma, Transcription Factor; Transcription Factor AP 2gamma; AP-2 gamma Protein; AP 2 gamma Protein; Transcription Factor AP 2 alpha Protein; AP-2 alpha Protein; AP 2 alpha Protein; TFAP2alpha Protein; Transcription Factor AP-2alpha; AP-2alpha, Transcription Factor; Transcription Factor AP 2alpha;

MeSH annotation : see SCR for organism-specific terms;

Is substance : O;

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A family of DNA binding proteins that regulate expression of a variety of GENES during CELL DIFFERENTIATION and APOPTOSIS. Family members contain a highly conserved carboxy-terminal basic HELIX-TURN-HELIX MOTIF involved in dimerization and sequence-specific DNA binding.

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02/05/2025


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