Artículo
Behavior of H-FABP-fatty acid complex in a protein crystal simulation
Espinosa Silva, Yanis Ricardo
; Alvarez, Hugo Ariel
; Howard, Eduardo Ignacio
; Carlevaro, Carlos Manuel
Fecha de publicación:
06/2018
Editorial:
Cornell University
Revista:
ArXiV
ISSN:
2331-8422
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Crystallographic data comes from a space-time average over all the unit cells within the crystal, so dynamic phenomena do not contribute significantly to the diffraction data. Many efforts have been made to reconstitute the movement of the macromolecules and explore the microstates that the confined proteins can adopt in the crystalline network. In this paper, we explored different strategies to simulate a heart fatty acid binding proteins (H-FABP) crystal starting from high resolution coordinates obtained at room temperature, describing in detail the procedure to study protein crystals (in particular H-FABP) by means of Molecular Dynamics simulations, and exploring the role of ethanol as a co-solute that can modify the stability of the protein and facilitate the interchange of fatty acids. Also, we introduced crystallographic restraints in our crystal models, according to experimental isotropic B?factors and analyzed the H-FABP crystal motions using Principal Component Analysis, isotropic and anisotropic B?factors. Our results suggest that restrained MD simulations based in experimental B?factors produce lower simulated B?factors than simulations without restraints,leading to more accurate predictions of the temperature factors. However, the systems without positional restraints represent a higher microscopic heterogeneity in the crystal.
Archivos asociados
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Identificadores
Colecciones
Articulos(IFLYSIB)
Articulos de INST.FISICA DE LIQUIDOS Y SIST.BIOLOGICOS (I)
Articulos de INST.FISICA DE LIQUIDOS Y SIST.BIOLOGICOS (I)
Citación
Espinosa Silva, Yanis Ricardo; Alvarez, Hugo Ariel; Howard, Eduardo Ignacio; Carlevaro, Carlos Manuel; Behavior of H-FABP-fatty acid complex in a protein crystal simulation; Cornell University; ArXiV; 6-2018; 1-30
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