Studies on DNA unwinding. Proton and phosphorus nuclear-magnetic-resonance studies of gene V protein from bacteriophage M13, interacting with d(pC-G-C-G).

The interaction of gene V protein from bacteriophage M13 with the self-complementary tetranucleotide d(pC-G-C-G) was studied by 1H and 31P nuclear magnetic resonance. It is shown, using the hydrogen-bonded proton resonances of the Watson-Crick base pairs as a probe, that the protein is able to unwind the small double-helical fragment even at 0 degrees C. Binding of the tetranucleotide causes changes in the aromatic part of the 1H NMR spectrum of the complex, suggesting that aromatic residues, most likely tyrosines, take part in the protein.nucleic-acid interaction. From the 31P NMR spectra of the protein.nucleic-acid complex it follows that the pK value of the 5'-terminal phosphate is lower than for the free nucleic acid species. Moreover, it could be shown that the exchange of the protein between nucleic acid substrates is fast. Combination of these measurements has led us to derive a mechanism of unwinding on the tetranucleotide level. To a large extent the unwinding is determined by fluctuations in the double-helical DNA structure.