Abstract
N protein coded by phage lambda is a transcription factor that stimulates the antitermination activity of Escherichia coli RNA polymerase by binding specifically to the nascent RNA transcript at a stemloop structure called boxB. We use a new biophysical technique, involving the monitoring of the low energy circular dichroism spectra of 2-aminopurine residues site-specifically placed in the boxB RNA loop, to investigate this binding interaction. The low energy CD spectra of these 2-aminopurine probes reflect specific asymmetric interactions with adjacent nucleotide bases. Consequently, these CD spectra provide detailed and specific conformational information about the RNA chain at these chromophores that cannot be obtained from changes in the related fluorescence signals of these probes. CD changes were observed on binding the N peptide to boxB RNA that correspond to structural changes that had been previously seen by NMR, thus validating our experimental approach. The low energy CD method was then used to quantify the ordered and disordered states of the free hairpin loop and to show that a significant fraction of the boxB loop assumes a product-like structure in the absence of protein. A boxB derivative with an intact stem and a reduced concentration of ordered loop was identified and used to show that the extent of the reaction between protein and boxB depends on the concentration of structured loop in the RNA reactant population. This result has general implications for the conformational specificity of RNA-protein interactions.
Highlights
Protein N, which is coded by bacteriophage , regulates the transcription of phage genes during the lytic phase of growth by inducing an antitermination phenotype in the elongating transcription complex [1, 2]
Excess peptide increased the intensity of the peak at 325 nm from 1.1 to 1.2 liter(mol of 2-AP)Ϫ1 cmϪ1 and decreased the trough at 320 nm from 0.6 to 0.4 liter(mol of 2-AP)Ϫ1 cmϪ1. These results indicate the presence of base stacking between 2-AP residues at positions 8 and 10 in the N-boxB complex, consistent with NMR results showing that N peptide binding induces a GNRA tetraloop conformation in boxB (14 –16)
Low energy CD measurements of oligonucleotides containing 2-AP residues can probe the secondary structure of DNA at the mono- and dinucleotide levels [17]
Summary
Protein N, which is coded by bacteriophage , regulates the transcription of phage genes during the lytic phase of growth by inducing an antitermination phenotype in the elongating transcription complex [1, 2]. The N protein binds to a stem-loop structure formed by the boxB element of nut [5,6,7] and acts by contacting the elongating RNA polymerase located at downstream terminators by means of a cis RNA looping mechanism [8, 9]. The first reflects exciton coupling between adjacent 2-AP bases stacked in a B-form right helical conformation, such as in dsDNA (28 –30) This signal is characterized by a CD spectrum with a low energy positive peak located at a wavelength above the maximum UV absorbance of the 2-AP residue, no CD intensity at the absorbance maximum, and a negative band at lower wavelength. This signal has been observed for 2-AP residues in DNA that are not adjacent and is characteristic of 2-AP dimers in conformations that do not permit exciton coupling
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