To assess the relative energies and free energies of five canonical and three zwitterionic low-lying structures of the arginine molecule, modern basis set extrapolation techniques and high-level ab initio treatments of electron correlation have been used on state-of-the-art parallel computers. The electronic energy and Gibbs free energy orderings of these eight species turn out to be consistent with previous findings [Rak, J.; Skurski, P.; Simons, J.; Gutowski M. J. Am. Chem. Soc. 2001, 123, 11695] obtained using smaller basis sets and lower level treatments of electron correlation. Nevertheless, the results presented here represent what the current state of the art can achieve for a molecule of this size and complexity and they offer the best available estimates of the relative stabilities of the eight structures.
Revised: July 25, 2006 |
Published: December 23, 2003
Citation
Gdanitz R.J., W.R. Cardoen, T.L. Windus, and J. Simons. 2003.Very Large Scale Computations of the Free Energies of Eight Low-Lying Structures of Arginine in the Gas Phase.Journal of Physical Chemistry A 108.PNNL-SA-48115.