A theoretical quantum study of the intramolecular interactions and chemical reactivity of polymorphs A and B of famotidine in the gas, DMSO, and aqueous phases

L. H. Mendoza-Huizar; G. Salgado-Morán; R. Ramirez-Tagle; D. Glossman-Mitnik

doi:10.1016/j.comptc.2015.11.007

A theoretical quantum study of the intramolecular interactions and chemical reactivity of polymorphs A and B of famotidine in the gas, DMSO, and aqueous phases

L. H. Mendoza-Huizar
, G. Salgado-Morán
, R. Ramirez-Tagle
, D. Glossman-Mitnik

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

5 Citas (Scopus)

Resumen

In the present work, we have studied the intramolecular interactions and chemical reactivity of famotidine polymorphs A and B in the gas, DMSO, and aqueous phases at the X/def2TZVP level of theory (where X=. wB97, wB97X, and wB97XD) and using the SDM solvation model. Also, the plane-wave density functional theory through the PSPW formulation was used to analyze the global reactivity parameters of famotidine. The geometry optimization of polymorphs A and B indicated extended and folded configurations, respectively. The results indicate that polymorph B exhibits a greater number of intramolecular interactions than polymorph A. Also, polymorph B is slightly more nucleophilic than polymorph A, which suggests better antiulcer activity by famotidine in a folded configuration.

Idioma original	Inglés
Páginas (desde-hasta)	54-62
Número de páginas	9
Publicación	Computational and Theoretical Chemistry
Volumen	1075
DOI	https://doi.org/10.1016/j.comptc.2015.11.007
Estado	Publicada - 1 ene. 2016
Publicado de forma externa	Sí

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title = "A theoretical quantum study of the intramolecular interactions and chemical reactivity of polymorphs A and B of famotidine in the gas, DMSO, and aqueous phases",

abstract = "In the present work, we have studied the intramolecular interactions and chemical reactivity of famotidine polymorphs A and B in the gas, DMSO, and aqueous phases at the X/def2TZVP level of theory (where X=. wB97, wB97X, and wB97XD) and using the SDM solvation model. Also, the plane-wave density functional theory through the PSPW formulation was used to analyze the global reactivity parameters of famotidine. The geometry optimization of polymorphs A and B indicated extended and folded configurations, respectively. The results indicate that polymorph B exhibits a greater number of intramolecular interactions than polymorph A. Also, polymorph B is slightly more nucleophilic than polymorph A, which suggests better antiulcer activity by famotidine in a folded configuration.",

keywords = "DFT, Famotidine, NCI, Reactivity, SMD",

author = "Mendoza-Huizar, \{L. H.\} and G. Salgado-Mor{\'a}n and R. Ramirez-Tagle and D. Glossman-Mitnik",

note = "Publisher Copyright: {\textcopyright} 2015 Elsevier B.V..",

year = "2016",

month = jan,

day = "1",

doi = "10.1016/j.comptc.2015.11.007",

language = "English",

volume = "1075",

pages = "54--62",

journal = "Computational and Theoretical Chemistry",

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A theoretical quantum study of the intramolecular interactions and chemical reactivity of polymorphs A and B of famotidine in the gas, DMSO, and aqueous phases. / Mendoza-Huizar, L. H.; Salgado-Morán, G.; Ramirez-Tagle, R. et al.
En: Computational and Theoretical Chemistry, Vol. 1075, 01.01.2016, p. 54-62.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - A theoretical quantum study of the intramolecular interactions and chemical reactivity of polymorphs A and B of famotidine in the gas, DMSO, and aqueous phases

AU - Mendoza-Huizar, L. H.

AU - Salgado-Morán, G.

AU - Ramirez-Tagle, R.

AU - Glossman-Mitnik, D.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - In the present work, we have studied the intramolecular interactions and chemical reactivity of famotidine polymorphs A and B in the gas, DMSO, and aqueous phases at the X/def2TZVP level of theory (where X=. wB97, wB97X, and wB97XD) and using the SDM solvation model. Also, the plane-wave density functional theory through the PSPW formulation was used to analyze the global reactivity parameters of famotidine. The geometry optimization of polymorphs A and B indicated extended and folded configurations, respectively. The results indicate that polymorph B exhibits a greater number of intramolecular interactions than polymorph A. Also, polymorph B is slightly more nucleophilic than polymorph A, which suggests better antiulcer activity by famotidine in a folded configuration.

AB - In the present work, we have studied the intramolecular interactions and chemical reactivity of famotidine polymorphs A and B in the gas, DMSO, and aqueous phases at the X/def2TZVP level of theory (where X=. wB97, wB97X, and wB97XD) and using the SDM solvation model. Also, the plane-wave density functional theory through the PSPW formulation was used to analyze the global reactivity parameters of famotidine. The geometry optimization of polymorphs A and B indicated extended and folded configurations, respectively. The results indicate that polymorph B exhibits a greater number of intramolecular interactions than polymorph A. Also, polymorph B is slightly more nucleophilic than polymorph A, which suggests better antiulcer activity by famotidine in a folded configuration.

KW - DFT

KW - Famotidine

KW - NCI

KW - Reactivity

KW - SMD

UR - https://www.scopus.com/pages/publications/84949266915

U2 - 10.1016/j.comptc.2015.11.007

DO - 10.1016/j.comptc.2015.11.007

M3 - Article

AN - SCOPUS:84949266915

SN - 2210-271X

VL - 1075

SP - 54

EP - 62

JO - Computational and Theoretical Chemistry

JF - Computational and Theoretical Chemistry

ER -

A theoretical quantum study of the intramolecular interactions and chemical reactivity of polymorphs A and B of famotidine in the gas, DMSO, and aqueous phases

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