INTERACTIONS OF MOLECULES WITH NUCLEIC-ACIDS .1. ALGORITHM TO GENERATE NUCLEIC-ACID STRUCTURES WITH AN APPLICATION TO THE B-DNA STRUCTURE AND A COUNTERCLOCKWISE HELIX

An algorithm is developed that enables the routine determination of backbone conformations of nucleic acids. All atomic positions including hydrogen are specified in accord with experimental bond lengths and angles but with theoretically determined conformational angles. For two Watson‐Crick base pairs at a separation of 3.38 Å, and perpendicular to a common helical axis, minimum energy configurations are found for all 10 combinations at helical angles of α ∼ 36°–38°, corresponding to the B‐DNA structure with C(2′)‐endo sugar puckers. Backbone configurations exist only within the range 35.5° ⩽ α ⩽ 42°, which suggests the origin of the 10‐fold helix. Calculated stacking energies for the B‐DNA structure increases for each of the clustered groups of base pairs: G·C with G·C, G·C with A·T, and A·T with A·T, and they are in approximate agreement with experimental observations. The counter‐clockwise helix is examined, and physically meaningful structures are found only when the helical axes of successive base pairs are disjointed. Copyright © 1979 John Wiley & Sons, Inc.