Web Release Date: June 27,
Surface Plasmon Resonance Imaging of Transcription
Factor Proteins: Interactions of Bacterial Response
Regulators with DNA Arrays on Gold Films
and
Department of Chemistry, University of Wisconsin, 1101 University Avenue, Madison, Wisconsin 53706, Department of Medicine, University of Wisconsin, 600 Highland Avenue, Madison, Wisconsin 53792, and Pharmacology Department, University of Wisconsin, 1215 Linden Drive, Madison, Wisconsin 53706
Received February 6, 2002
In Final Form: April 19, 2002
Abstract:
Surface plasmon resonance (SPR) imaging measurements have been used to study the sequence specific adsorption of response regulator proteins to DNA arrays constructed on gold thin films. Bacteria adapt to their environment primarily through two-component signal transduction systems that consist of an environmental sensor histidine kinase and a transcription activator response regulator DNA binding protein. DNA arrays were fabricated from oligonucleotide sequences of known DNA binding regions for two response regulators: OmpR, which controls gene expression of the outer membrane porin proteins in Escherichia coli, and VanR, which is involved in the antibiotic vancomycin resistance in Enterococcus faecium. The label-free method of SPR imaging was then used to monitor the sequence specific binding of these two response regulator proteins to the DNA arrays. The promoter regions from the ompF (F1 and F2) and ompC (C1) genes for the OmpR protein, and from the vanRS (R1) and vanHAX (H1 and H2) genes for the VanR protein were studied. SPR imaging was used to (i) monitor and compare the binding of both response regulators to various promoter regions on the DNA array, (ii) compare the binding of the OmpR response regulator protein in its phosphorylated and nonphosphorylated forms, and (iii) monitor the inhibition of VanR protein binding to the DNA arrays in the presence of a small molecule DNA binding inhibitor. The proteins exhibited specificity for the known binding sequences compared to control sequences on the DNA array. For the OmpR protein, the highest amount of binding was observed at the F1 site. When OmpR was phosphorylated by a small molecule phosphodonor, acetyl phosphate, there was on average a 42% increase in protein binding. In contrast, phosphorylated VanR binding decreased by an average of 40% in the presence of a known DNA binding inhibitor, (2,3,4-trifluorophenylisothiazolone). These measurements demonstrate that SPR imaging is an effective screening method for compounds that target DNA protein interactions and can serve as a useful tool for the discovery of new therapeutic molecules that target DNA binding proteins.
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