A liver-enriched transcriptional activator protein, LAP, and a transcriptional inhibitory protein, LIP, are translated from the sam mRNA
P Descombes, U Schibler - Cell, 1991 - cell.com
P Descombes, U Schibler
Cell, 1991•cell.comLAP, a transcriptional activator, and LIP, a transcriptional repressor, are translated from a
single mRNA species by using two AUGs within the same reading frame. These two proteins
share the 145 C-terminal amino acids that contain the basic DNA-binding domain and the
leucine zipper dimerlzation helix. Probably owing to its higher affinity for its DNA cognate
sequences, LIP can attenuate the transcriptional stimulation by LAP in substoichiometric
amounts. As revealed by transient transfection experiments, a moderate increase in the …
single mRNA species by using two AUGs within the same reading frame. These two proteins
share the 145 C-terminal amino acids that contain the basic DNA-binding domain and the
leucine zipper dimerlzation helix. Probably owing to its higher affinity for its DNA cognate
sequences, LIP can attenuate the transcriptional stimulation by LAP in substoichiometric
amounts. As revealed by transient transfection experiments, a moderate increase in the …
Summary
LAP, a transcriptional activator, and LIP, a transcriptional repressor, are translated from a single mRNA species by using two AUGs within the same reading frame. These two proteins share the 145 C-terminal amino acids that contain the basic DNA-binding domain and the leucine zipper dimerlzation helix. Probably owing to its higher affinity for its DNA cognate sequences, LIP can attenuate the transcriptional stimulation by LAP in substoichiometric amounts. As revealed by transient transfection experiments, a moderate increase in the LAP/LIP ratio results in a significantly higher transcriptional activation of an appropriate target gene. The LAP/LIP ratio increases about 5-fold during terminal rat liver differentlation and Is thus likely to modulate the activity of LAP in the intact animal.
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