In silico binding affinity studies of phenyl-substituted 1,3-oxazoles with protein molecules

Abstract: The new model approach of interaction between the pharmacophores with bio-molecules, fragment-to-fragment, is presented. It is a new step of the molecular modeling and takes correctly into consideration not only the spatial complementarity of the interacted molecules but also the contribution of the stacking π-π-electron interaction and hydrogen bonds. As an example, the correct analysis of the interaction of the biological active phenyl-substituted 1,3-oxazoles with protein fragments is performed. It was show… Show more

“…with model proton-donor biomolecules show that the Е increases upon annelation of oxazole (and its heteroanalogues) with pyridine cycle. It should be noted that the expansion of the -electron system by introducing phenyl radicals to the oxazole cycle as reported earlier [18] ISSN 1814-9758. Ukr.…”

“…DFT calculation of pharmacophore complexes with model proton-donor amino acid by the hydrogen bonding mechanism (H-B complex) shows that stabilization energy (E) increases from monoheterocycles to their condensed derivatives. The expansion of the -electron system by introducing phenyl radicals to the oxazole cycle as reported earlier [18] leads to a decrease in the stabilization energy of the [Pharm-BioM] complexes in comparison with the annelated oxazole by the pyridine cycle.…”

“…Their chemical composition and structural characteristics should influence the stability of such complex. Generally, the interaction of two -electron systems can be estimated by the relative positions of the molecular levels of both molecules as well as the overlapping of their -systems; in MO approximation, the interaction energy E is quantitatively calculated in the approximation of the interaction of MO [18].…”

“…Розширення -електронної системи сполук 1 піридиновим циклом зменшило енергію стабілізації -комплексів та H-B комплексів у порівнянні з розширенням -електронної системи, шляхом введення фенільного радикала у 2 або 5 положення оксазольного кільця, описаних раніше оксазолів [18].…”

“…A biological activity depends on the chemical structures of both a pharmacophore and a target molecules that includes their 3D geometry and electron structure. Recently, we reported [18] the influence of the various conjugated groups (donors, acceptors as well as ambivalent phenyls) in a mono-cyclic oxazole platform on the electron densities of substituted derivatives and on their biological activity using the fragment-to-fragment approach. It was found that the expansion of the -system by introducing the conjugated substituents to oxazole platform influenced their biological activity.…”

In silico study of binding affinity of nitrogenous bicyclic heterocycles: fragment-to-fragment approach

“…with model proton-donor biomolecules show that the Е increases upon annelation of oxazole (and its heteroanalogues) with pyridine cycle. It should be noted that the expansion of the -electron system by introducing phenyl radicals to the oxazole cycle as reported earlier [18] ISSN 1814-9758. Ukr.…”

“…DFT calculation of pharmacophore complexes with model proton-donor amino acid by the hydrogen bonding mechanism (H-B complex) shows that stabilization energy (E) increases from monoheterocycles to their condensed derivatives. The expansion of the -electron system by introducing phenyl radicals to the oxazole cycle as reported earlier [18] leads to a decrease in the stabilization energy of the [Pharm-BioM] complexes in comparison with the annelated oxazole by the pyridine cycle.…”

“…Their chemical composition and structural characteristics should influence the stability of such complex. Generally, the interaction of two -electron systems can be estimated by the relative positions of the molecular levels of both molecules as well as the overlapping of their -systems; in MO approximation, the interaction energy E is quantitatively calculated in the approximation of the interaction of MO [18].…”

“…Розширення -електронної системи сполук 1 піридиновим циклом зменшило енергію стабілізації -комплексів та H-B комплексів у порівнянні з розширенням -електронної системи, шляхом введення фенільного радикала у 2 або 5 положення оксазольного кільця, описаних раніше оксазолів [18].…”

“…A biological activity depends on the chemical structures of both a pharmacophore and a target molecules that includes their 3D geometry and electron structure. Recently, we reported [18] the influence of the various conjugated groups (donors, acceptors as well as ambivalent phenyls) in a mono-cyclic oxazole platform on the electron densities of substituted derivatives and on their biological activity using the fragment-to-fragment approach. It was found that the expansion of the -system by introducing the conjugated substituents to oxazole platform influenced their biological activity.…”

In silico study of binding affinity of nitrogenous bicyclic heterocycles: fragment-to-fragment approach

In silico study the interaction of heterocyclic bases with peptide moieties of proteins in the "fragment-to-fragment" approach