Theoretical study of 3-D molecular similarity and ligand binding modes of orthologous human and rat D2 dopamine receptors

Marvin A. Soriano-Ursa; Jorge O. Ocampo-López; Karina Ocampo-Mendoza; Josx G. Trujillo-Ferrara; Josx Correa-Basurto

doi:10.1016/j.compbiomed.2011.04.018

Theoretical study of 3-D molecular similarity and ligand binding modes of orthologous human and rat D2 dopamine receptors

Marvin A. Soriano-Ursa, Jorge O. Ocampo-López, Karina Ocampo-Mendoza, Josx G. Trujillo-Ferrara, Josx Correa-Basurto

Escuela Superior de Medicina (ESM)

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Resumen

The D₂ dopamine receptor (D₂DR) is an important target for the treatment of some central nervous system disorders, such as Parkinson disease, schizophrenia and drug-dependence. In this work, we built 3-D models of the long form of human and rat D₂DRs by considering data from the crystallized D3 dopamine receptor, Β2 adrenoceptor and A2a adenosine receptor as templates. Then, docking was performed with ligand and protein residue flexibility. These results were used to analyze ligand recognition and estimate binding affinity. Our results show that the predicted ligand affinity correlates with experimental data, and binding modes are very similar between the D₂DRs of these two species.

Idioma original	Inglés
Páginas (desde-hasta)	537-545
Número de páginas	9
Publicación	Computers in Biology and Medicine
Volumen	41
N.º	7
DOI	https://doi.org/10.1016/j.compbiomed.2011.04.018
Estado	Publicada - jul. 2011

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title = "Theoretical study of 3-D molecular similarity and ligand binding modes of orthologous human and rat D2 dopamine receptors",

abstract = "The D2 dopamine receptor (D2DR) is an important target for the treatment of some central nervous system disorders, such as Parkinson disease, schizophrenia and drug-dependence. In this work, we built 3-D models of the long form of human and rat D2DRs by considering data from the crystallized D3 dopamine receptor, Β2 adrenoceptor and A2a adenosine receptor as templates. Then, docking was performed with ligand and protein residue flexibility. These results were used to analyze ligand recognition and estimate binding affinity. Our results show that the predicted ligand affinity correlates with experimental data, and binding modes are very similar between the D2DRs of these two species.",

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author = "Soriano-Ursa, {Marvin A.} and Ocampo-L{\'o}pez, {Jorge O.} and Karina Ocampo-Mendoza and Trujillo-Ferrara, {Josx G.} and Josx Correa-Basurto",

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Theoretical study of 3-D molecular similarity and ligand binding modes of orthologous human and rat D2 dopamine receptors. / Soriano-Ursa, Marvin A.; Ocampo-López, Jorge O.; Ocampo-Mendoza, Karina et al.
En: Computers in Biology and Medicine, Vol. 41, N.º 7, 07.2011, p. 537-545.

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

TY - JOUR

T1 - Theoretical study of 3-D molecular similarity and ligand binding modes of orthologous human and rat D2 dopamine receptors

AU - Soriano-Ursa, Marvin A.

AU - Ocampo-López, Jorge O.

AU - Ocampo-Mendoza, Karina

AU - Trujillo-Ferrara, Josx G.

AU - Correa-Basurto, Josx

PY - 2011/7

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AB - The D2 dopamine receptor (D2DR) is an important target for the treatment of some central nervous system disorders, such as Parkinson disease, schizophrenia and drug-dependence. In this work, we built 3-D models of the long form of human and rat D2DRs by considering data from the crystallized D3 dopamine receptor, Β2 adrenoceptor and A2a adenosine receptor as templates. Then, docking was performed with ligand and protein residue flexibility. These results were used to analyze ligand recognition and estimate binding affinity. Our results show that the predicted ligand affinity correlates with experimental data, and binding modes are very similar between the D2DRs of these two species.

KW - D dopamine receptor ligands

KW - Drug development

KW - Molecular modeling

KW - Parkinsons disease

KW - Rat striatum

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U2 - 10.1016/j.compbiomed.2011.04.018

DO - 10.1016/j.compbiomed.2011.04.018

M3 - Artículo

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SN - 0010-4825

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SP - 537

EP - 545

JO - Computers in Biology and Medicine

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Theoretical study of 3-D molecular similarity and ligand binding modes of orthologous human and rat D2 dopamine receptors

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