An "attenuator domain" is sandwiched by two distinct transactivation domains in the transcription factor C/EBP.

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Mol Cell Biol. 1991 March; 11(3): 1480-1487

An "attenuator domain" is sandwiched by two distinct transactivation domains in the transcription factor C/EBP.

D Q Pei and C H Shih

Department of Biochemistry and Biophysics, School of Medicine, University of Pennsylvania, Philadelphia 19104-6059.

ABSTRACT

C/EBP is a rat liver DNA-binding protein which can act as atranscription factor. Its N-terminal portion contains threedistinct domains. The first domain (amino acids 1 to 107) appearsto be a highly potent transactivator. The second domain (aminoacids 107 to 170) does not appear to exhibit either activationor repression activity. This domain is defined as an "attenuatordomain" because its presence under four different sequence contextsreproducibly decreases the effect of transactivation of C/EBP.The third domain (amino acids 171 to 245) is a relatively weakertransactivator with a striking proline-rich motif. Deletionalanalysis of this third domain has shown that a 45-amino-acidregion is sufficient for transactivation. This region (aminoacids 171 to 215) contains 12 proline, 6 histidine, and mainlyhydrophobic or noncharged amino acids. Further mutational analysisof a highly conserved proline-octamer region within this domainindicates that a specific proline content is not crucial fortransactivation.

Mol Cell Biol. 1991 March; 11(3): 1480-1487

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