FLUORESCENCE ANALYSIS OF THE ESCHERICHIA-COLI TRANSCRIPTION REGULATOR-H-NS REVEALS 2 DISTINGUISHABLE COMPLEXES DEPENDENT ON BINDING TO SPECIFIC OR NONSPECIFIC DNA SITES

Here we report a structural investigation of the transcription factor H-NS and its DNA interaction. H-NS has a general effect on transcription by compacting DNA; but for a number of specific genes, it is known to act directly as repressor or activator. The homodimeric protein binds to the major groove of DNA in a sequence-nonspecific manner, recognizing a curved conformation of the target DNA. H-NS consists of 136 amino acids with a single tryptophanyl residue at position 108. To overcome the apparent lack of any other structural details, we took advantage of the intrinsic fluorescence of Trp-108. Static and dynamic quenching constants obtained with the neutral quencher molecule acrylamide are consistent with a hydrophilic environment and high degree of solvent exposure for Trp-108. In addition, quenching studies in the presence of the anionic quencher iodide indicate a positively charged microenvironment for the same amino acid residue. Specific and nonspecific H-NS DNA complexes were studied by gel retardation and fluorescence analysis. While specific H-NS DNA complex formation is accompanied by a clear enhancement of the tryptophanyl fluorescence intensity, interaction in the presence of the nonspecific competitor DNA poly(dI-dC) decreases the fluorescence quantum yield.