1. Characterization of human E4BP4, a phosphorylated bZIP factor.
- Author
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Chen WJ, Lewis KS, Chandra G, Cogswell JP, Stinnett SW, Kadwell SH, and Gray JG
- Subjects
- Activating Transcription Factor 2, Baculoviridae metabolism, Base Sequence, Basic-Leucine Zipper Transcription Factors, Cyclic AMP Response Element-Binding Protein metabolism, DNA, Complementary isolation & purification, DNA-Binding Proteins isolation & purification, DNA-Binding Proteins metabolism, G-Box Binding Factors, Gene Library, Humans, Molecular Sequence Data, Phosphoproteins metabolism, Phosphorylation, Repressor Proteins metabolism, DNA-Binding Proteins genetics, Interleukin-1 genetics, Transcription Factors
- Abstract
In this report we described the isolation of transcription factor E4BP4 by lambda gt11 expression cloning using a probe containing the CRE/ATF-like sequence located between -2764 bp and -2753 bp in the upstream regulatory region for the human IL-1 beta gene. DNaseI protection, gel mobility shift analysis, and cotransfection studies were performed to investigate the binding and functional properties of E4BP4 using IL-1 beta promoter sequences. By DNaseI footprinting, a protection pattern was generated over the CRE/ATF-like site and the flanking sequences by bacterially produced E4BP4. Competition experiment by gel shift assay indicated that E4BP4 bound specifically to CRE/ATF-like site, not NF kappa B-like site. In cotransfection studies, E4BP4 repressed promoter activity and this repression was mediated through the CRE/ATF-like site. Mutational analysis of E4BP4 suggested that the DNA binding as well as repression activities required leucine heptad repeat domain. Analysis of E4BP4 produced in Escherichia coli and Sf9 cells infected with recombinant baculovirus indicated that baculovirus produced protein showed enhanced binding to the CRE/ATF-like site compared to the E. coli-produced protein. Analysis of posttranslational modifications indicated that E4BP4 produced in Sf9 cells was phosphorylated and this phosphorylation was important for the DNA binding activity of E4BP4.
- Published
- 1995
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