We applied phage display technology to DNA-protein interaction studies. A cDNA expression library displayed on the surface of bacteriophage lambda was generated from the highly differentiated MMH E14 murine hepatic cell line. Selection of this library using the promoter sequence of the liver-enriched transcription factor HNF1alpha gene as ligate identified DNA-binding domains specifically interacting with different regions of this regulatory sequence. One of the selected phage showed 100% identity to a DNA-binding domain shared by differentiation specific element-binding protein, vasoactive intestinal peptide receptor-repressor protein and replication factor C and was further investigated. Specific binding of the selected protein domain was confirmed in a phage-independent context. By combining ELISA and South-Western assays using the selected phage and a bacterially expressed glutathione-S-transferase protein fused to the encoded DNA-binding domain, an array of multiple adjacent DNA-binding sites sharing a common consensus motif was identified. The strategy described represents a powerful tool to identify proteins that bind to DNA regulatory elements.
Searching for DNA - protein Interactions by Lambda Phage Display / Cicchini, Carla; Ansuini, H.; Amicone, Laura; Alonzi, T.; Nicosia, A.; Cortese, R.; Tripodi, Marco; Luzzago, A.. - In: JOURNAL OF MOLECULAR BIOLOGY. - ISSN 0022-2836. - 322:(2002), pp. 697-706. [10.1016/S0022-2836(02)00851-3]
Searching for DNA - protein Interactions by Lambda Phage Display
CICCHINI, Carla;AMICONE, Laura;TRIPODI, Marco;
2002
Abstract
We applied phage display technology to DNA-protein interaction studies. A cDNA expression library displayed on the surface of bacteriophage lambda was generated from the highly differentiated MMH E14 murine hepatic cell line. Selection of this library using the promoter sequence of the liver-enriched transcription factor HNF1alpha gene as ligate identified DNA-binding domains specifically interacting with different regions of this regulatory sequence. One of the selected phage showed 100% identity to a DNA-binding domain shared by differentiation specific element-binding protein, vasoactive intestinal peptide receptor-repressor protein and replication factor C and was further investigated. Specific binding of the selected protein domain was confirmed in a phage-independent context. By combining ELISA and South-Western assays using the selected phage and a bacterially expressed glutathione-S-transferase protein fused to the encoded DNA-binding domain, an array of multiple adjacent DNA-binding sites sharing a common consensus motif was identified. The strategy described represents a powerful tool to identify proteins that bind to DNA regulatory elements.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.