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1.
J Chem Inf Model ; 63(21): 6642-6654, 2023 11 13.
Artículo en Inglés | MEDLINE | ID: mdl-37909535

RESUMEN

There is still growing interest in graphene interactions with proteins, both for its possible biological applications and due to concerns over detrimental effects at the cellular level. As with any process involving proteins, an understanding of amino acid composition is desirable. In this work, we systematically studied the adsorption process of amino acids onto pristine graphene via rigorous free-energy calculations. We characterized the free energy, potential energy, and entropy of the adsorption of all proteinogenic amino acids. The energetic components were further separated into pair interaction contributions. A linear correlation was found between the free energy and the solvent accessible surface area change during adsorption (ΔSASAads) over pristine graphene and uncharged amino acids. Free energies over pristine graphene were compared with adsorption onto graphene oxide, finding an almost complete loss of the favorability of amino acid adsorption onto graphene. Finally, the correlation with ΔSASAads was used to successfully predict the free energy of adsorption of several penta-l-peptides in different structural states and sequences. Due to the relative ease of calculating the ΔSASAads compared to free-energy calculations, it could prove to be a cost-effective predictor of the free energy of adsorption for proteins onto nonpolar surfaces.


Asunto(s)
Aminoácidos , Grafito , Aminoácidos/química , Entropía , Grafito/química , Adsorción , Solventes
2.
J Comput Aided Mol Des ; 35(10): 1067-1079, 2021 10.
Artículo en Inglés | MEDLINE | ID: mdl-34617191

RESUMEN

Falcipain-2 (FP-2) is a Plasmodium falciparum hemoglobinase widely targeted in the search for antimalarials. FP-2 can be allosterically modulated by various noncompetitive inhibitors that have been serendipitously identified. Moreover, the crystal structures of two inhibitors bound to an allosteric site, termed site 6, of the homolog enzyme human cathepsin K (hCatK) suggest that the equivalent region in FP-2 might play a similar role. Here, we conduct the rational identification of FP-2 inhibitors through virtual screenings (VS) of compounds into several pocket-like conformations of site 6, sampled during molecular dynamics (MD) simulations of the free enzyme. Two noncompetitive inhibitors, ZINC03225317 and ZINC72290660, were confirmed using in vitro enzymatic assays and their poses into site 6 led to calculated binding free energies matching the experimental ones. Our results provide strong evidence about the allosteric inhibition of FP-2 through binding of small molecules to site 6, thus opening the way toward the discovery of new inhibitors against this enzyme.


Asunto(s)
Antimaláricos/farmacología , Simulación por Computador , Cisteína Endopeptidasas/química , Inhibidores de Cisteína Proteinasa/farmacología , Plasmodium falciparum/efectos de los fármacos , Sitio Alostérico , Antimaláricos/química , Inhibidores de Cisteína Proteinasa/química , Simulación del Acoplamiento Molecular , Simulación de Dinámica Molecular , Plasmodium falciparum/enzimología , Unión Proteica , Relación Estructura-Actividad
3.
Phys Chem Chem Phys ; 16(11): 5119-28, 2014 Mar 21.
Artículo en Inglés | MEDLINE | ID: mdl-24477412

RESUMEN

Single-file water chains confined in carbon nanotubes have been extensively studied using molecular dynamics simulations. Specifically, the pore loading process of periodic (6,6) and (5,5) single-walled carbon nanotubes was thermodynamically characterized by means of free-energy calculations at every loading state and compared to bulk water employing thermodynamic cycles. Long simulations of each end-state allowed for the partitioning of the free energy into its energetic and entropic components. The calculations revealed that the initial loading states are dominated by entropic (both translational and rotational) components, whereas the latter stages are energetically driven by strong dipolar interactions among the water molecules in the file.


Asunto(s)
Nanotubos de Carbono , Termodinámica , Modelos Teóricos , Agua/química
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