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Biophys J, December 1999, p. 3252-3255, Vol. 77, No. 6
Department of Biochemistry, Molecular Biology, and Biophysics, University of Minnesota, St. Paul, Minnesota 55108 USA
The stability of a DNA double helix of any particular
sequence is conventionally estimated as the average of the stabilities of the 10 different nearest-neighbor (NN) base pair doublets that it
contains. Therefore, much effort has been devoted to the experimental characterization and tabulation of the enthalpy, entropy, and free
energy of melting for each of the NN doublets. Although data from
different research groups generally agree for the NN free energies and
melting temperatures, there are major disagreements for the enthalpies
and entropies. The largest differences are between the parameters
obtained on oligomeric relative to polymeric DNA. This disagreement
interferes with the practical application of NN thermodynamic
parameters. It also raises doubts regarding several fundamental
assumptions about DNA melting, such as the absence of longer range
interactions, the length dependence of DNA melting parameters per base
pair, the applicability of polyelectrolyte theory to the description of
salt effects on oligomers, and the purely enthalpic difference between
NN doublets. Here we show that if one takes into account the
significant heat capacity increase associated with DNA melting, all of
the above assumptions are self-consistently reconciled with experiment.
Biophys J, December 1999, p. 3252-3255, Vol. 77, No. 6
© 1999 by the Biophysical Society 0006-3495/99/12/3252/04 $2.00
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