Conformations of cyclic 3',5'-nucleotides. Effect of the base on the syn-anti conformer distribution

Abstract

The furanose and the phosphate rings of cyclic 3',5'-nucleotides are locked in the ₄T³ and chair conformations respectively. The only variable which shows major conformational flexibility in these molecules is the rotation about the glycosyl bond which describes the orientation of the base relative to the sugar-phosphate bicyclic system. The glycosyl torsion angle has been analyzed for cyclic nucleotides with different purine and pyrimidine bases by use of conformational energy calculations. The results indicate that all the pyrimidine bases, U, T and C show a very strong energetic preference for the anti range of conformations. The calculations predict that among cyclic 3',5'-purine nucleotides cyclic GMP and cyclic IMP favor the syn conformation to the anti by 95:5 and 70:30 respectively, while cyclic AMP shows a preference for the anti conformation to syn by 70:30. Thus the purines show a greater probability for the syn conformation than the pyrimidines in cyclic 3',5'-nucleotides.