Abstract

The interaction of the ribosomal protein S1 from E. coli MRE 600 with oligonucleotides was studied by hydrodynamic, spectrophotometric, and kinetic methods. UV-difference spectra which are induced by the complex formation could be separated into a hyperchromic contribution originating from the nucleic acid moiety and a hypochromic contribution from the protein. Systematic determination of binding and rate constants was carried out by the temperature-jump relaxation technique. From the quantitative evaluation of the relaxation times and the relaxation amplitudes, the following conclusions could be drawn: The stoichiometry of the complex formation is one mole S1 per one mole oligonucleotide. The binding constant K, the recombination rate constant kR, and the dissociation rate constant kD, respectively, were measured at different temperatures. The values at 10 degrees C are K = 2 x 10(6) M-1, kR = 1.3 x 10(8) M-1S-1, kD = 65 s-1 for A(pA) 12 and K = 7.5 x 10(5) M-1, kR = 6.8 x 10(7) M-1S-1, kD = 90 S-1 for U(pU) 12. Discrepancies with data reported elsewhere are discussed. The stacking-unstacking equilibrium of the free oligonucleotide is frozen if the oligonucleotide is bound to the protein. The conformational change of the oligonucleotide does not occur in the form of a preequilibrium, but is induced after the primary binding step.