| Abstract: | We have determined the effect of the tryptophan (trp) repressor from Escherichia coli on the structure and dynamics of dA20dT20. The structure was determined using time-dependent nuclear Overhauser effects and spin-lattice relaxation times. The deoxyribose conformation is near C3' endo for the thymine residues, and a mixture of about 30% C3' endo and 70% C2' endo for the adenine residues. The glycosidic torsion angles are -50 degrees for T and -60 degrees for A. The roll is 20 degrees and the propellor twist is about 29 degrees. The conformation is consistent with recent calculations (Rao, K. and Kollman, P.A. (1985) J. Am. Chem. Soc. 107, 1507-1511). The rate constant for exchange of the imino protons is similar to that usually found for AT base-pairs, with an activation energy of 20 +/- 2 kcal/mol, and an activation entropy of 17 +/- 7 cal/mol per K. The repressor greatly retards the exchange of imino protons, and the activation energy increases to 38 kcal/mol. There are small changes in the structure of the DNA on forming the complex, with the adenine and thymidine residues becoming more similar in conformation. |
