Competitive hydrogen bonding in aspirin-aspirin and aspirin-leucine interactions

Authors

ZEYNEP YURTSEVER
BURAK ERMAN
İSMAİL ERSİN YURTSEVER

DOI

10.3906/kim-1112-16

Abstract

Aspirin-aspirin and aspirin-leucine interactions are studied by the density functional theory (DFT) and high level ab initio calculations with second order Moller-Plesset perturbation theory (MP2). The rotational isomers of aspirin are identified by their relative stability both in gaseous phase and in water using the polarizable continuum method (PCM). Local minima of aspirin monomers in water are found to be all highly populated compared to the gas phase behavior. Homodimers of aspirin form hydrogen bonds with bond energies of 10 kcal/mol. Weak hydrogen bonds utilizing phenyl and methyl groups are also found. The interaction between aspirin and leucine is stronger with relatively short bond lengths compared to homodimeric aspirin interactions. The potential energy surface has several minima with comparable stability. This study shows the significance of diverse bonding schemes, which are important for understanding complete interaction mechanisms of aspirin.

Keywords

Competitive hydrogen bonding in aspirin-aspirin and aspirin-leucine İnteractions

First Page

383

Last Page

395

Recommended Citation

YURTSEVER, ZEYNEP; ERMAN, BURAK; and YURTSEVER, İSMAİL ERSİN (2012) "Competitive hydrogen bonding in aspirin-aspirin and aspirin-leucine interactions," Turkish Journal of Chemistry: Vol. 36: No. 3, Article 3. https://doi.org/10.3906/kim-1112-16
Available at: https://journals.tubitak.gov.tr/chem/vol36/iss3/3