Purification and identification of positive regulators binding to a novel element in the c-Jun promoter.

A putative response element, GAGCCTC, was observed years ago in footprinting analysis of the c-jun promoter, and here we investigate its function in regulating c-jun expression and identify a protein complex that binds there. Electrophoretic mobility shift assays demonstrate a sequence-specific binding complex with this element in HEK293 cells. Additionally, unlabeled consensus AP-1 element DNA, but not a similar NF-jun element DNA, competes with complex formation.

Promoter trapping of c-jun promoter-binding transcription factors.

A new method called promoter trapping was developed to purify promoter-protein complex using the c-jun promoter (-200+81) as a model, which was shown to have significant promoter activity. Polymerase chain reaction (PCR), lambda exonuclease digestion combined with (AC)(5)-Sepharose DNA affinity chromatography were used to produce c-jun promoter with a (GT)(5) tail at each 3' end. The intact promoter and different length pieces with one or two (GT)(5) tails had almost the same capacity to bind with (AC)(5)-Sepharose.

Oligonucleotide trapping method for transcription factor purification systematic optimization using electrophoretic mobility shift assay.

Oligonucleotide trapping, where a transcription factor-DNA response element complex is formed in solution and then recovered (trapped) on a column, was optimized for the purification of CAAT/enhancer binding protein (C/EBP) from rat liver nuclear extract. Electrophoretic mobility shift assays (EMSAs) with ACEP24(GT)5 oligonucleotide, containing the CAAT element, was used to estimate thebinding affinity and concentration of C/EBP in the nuclear extract and then low concentrations of protein and oligonucleotide, which favor specific binding, were used for all further experiments. Also using EMSA, the highest concentrations of competitors, which inhibit non-specific binding but do not inhibit oligonucleotide binding by C/EBP, were determined to be 932 nM T18 (single-stranded DNA), 50 ng/ml heparin (non-DNA competitor), and 50 microg/ml poly(dI:dC) (duplex DNA).

Effect of the detergent Tween-20 on the DNA affinity chromatography of Gal4, C/EBPalpha, and lac repressor with observations on column regeneration.

C/EBPalpha, Gal4, and lac repressor, representing three different transcription factor homology families, were expressed as fusion proteins and used to characterize the effects of column aging, Mg2+, the nonionic detergent Tween-20, column loading, and bovine serum albumin on DNA-affinity chromatography. When lac-repressor-beta-galactosidase fusion protein is loaded onto a new DNA-Sepharose column, less elutes from a new column than one that has been used two or more times. Higher amounts of lac repressor, the Green Fluorescent Protein fusions with CAAT enhancer binding protein (C/EBPalpha) and Gal4, elute from the columns when 0.

Methods for transcription factor separation.

Recent advances in the separation of transcription factors (TFs) are reviewed in this article. An overview of the transcription factor families and their structure is discussed and a computer analysis of their sequences reveals that while they do not differ from other proteins in molecular mass or isoelectric pH, they do differ from other proteins in the abundance of certain amino acids. The chromatographic and electrophoretic methods which have been successfully used for purification and analysis are discussed and recent advances in stationary and mobile phase composition is discussed.