A base-pairing model of duplex formation. I. Watson-Crick pairing geometries.

We present a base-pairing model of oligonucleotide duplex formation and show in detail its equivalence to the nearest-neighbor dimer methods from fits to free energy of duplex formation data for short DNA-DNA and DNA-RNA hybrids containing only Watson-Crick pairs. For completeness, the corresponding RNA-RNA parameters are included. In this approach, the connection between rank-deficient polymer and rank-determinant oligonucleotide parameter sets for DNA duplexes is transparent. The method is generalized to include RNA-DNA hybrids where the rank-deficient model with 11 dimer parameters in fact provides slightly improved predictions relative to the standard method with 16 independent dimer parameters (DeltaG mean errors of 4.5 and 5.4%, respectively). (c) 2005 Wiley Periodicals, Inc.