| Abstract: | The heptaethyl ester of heptadeoxythymidylyl-(3'-5')-deoxythymidine (d-Tp(Et)]7T or d-T8-Et) has been prepared by chemical methods. The material, consisting of a mixture of diastereoisomers, forms a 1:1 complex with (dA)n in neutral aqueous buffer; this interaction is virtually independent of ionic strength. The octamer triester does not bind to (dA)n-(dT)n, and it interacts with (rA)n only at low temperatures. By cochromatography with (dA)n on Sephadex G-50, d-T8-Et fractions with different binding affinities for the polyadenylates were obtained. This heterogeneity in binding affinity is ascribed to the diastereoisomerism of d-T8-Et. Enthalpies of dupoex formation were determined by the concentration variation method. At 0.1 M sodium ion concentration, the enthalpy of binding of the various d-T8-Et fractions to (dA)n is essentially invariant (-8.1 kcal/mol of base pairs at 0 degrees C to -8.6 kcal at 25 degrees C) and 1.6 kcal/mol of base pairs more negative than the enthalpy of binding of the phosphodiester analogue, d-(Tp)7T, to (dA)n (-6.8 kcal/mol of base pairs at 11 degrees C). This difference is the electrostatic contribution to the enthalpy of duplex formation, arising from the interstrand electrostatic repulsion and the intrastrand repulsion in d-(Tp)7T. The entropy of binding to (dA)n is more negative for the octamer triesters than for the diester analogue, and is different for the various d-T8-Et fractions. This is interpreted in terms of varying degrees of restriction of rotational freedom for the ethyl substituents upon double helix formation. |
