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Pregled bibliografske jedinice broj: 637562

Zbornik radova

Autori: Tomić, Antonija; Tomić, Sanja
Naslov: Molecular Mechanics - Poisson Boltzmann Surface Area calculations using AMBER program package - application to the human dipeptidyl petidase III
( Molecular Mechanics - Poisson Boltzmann Surface Area calculations using AMBER program package - application to the human dipeptidyl petidase III )
Izvornik: Computational Electrostatics for Biological Applications - Book of Abstract
Skup: Computational Electrostatics for Biological Applications (CEBA '13)
Mjesto i datum: Genova, Italija, 01-03.07.2013.
Ključne riječi: MM-PBSA; dipeptidyl petidase III; Amber
( MM-PBSA; dipeptidyl petidase III; Amber )
Sažetak:
Molecular Mechanics - Poisson Boltzmann Surface Area (MM-PBSA)[1] is post-processing method implemented in AMBER program package, in which representative snapshots from an ensemble of conformations, generated by molecular dynamic (MD) or Monte Carlo simulations, are used to calculate the associated free energy value. Typically, binding free energy difference between bound and free state of a receptor and ligand are calculated. Binding free energy difference, or trend in the binding free energy difference is usually more important than their absolute free energy values. The enthalpic component of the free energy is calculated by combining the so-called gas phase energy contributions (internal (bond, angle and dihedral energies), van der Waales and electrostatic energies as calculated by MM force field and independent of the chosen solvent model) and the solvation free energy components (both polar and non-polar) calculated from an implicit solvent model for each system. The electrostatic portion is calculated using either Poisson Boltzmann (PB) or Generalized Born method. The PB equation is solved numerically by either the program pbsa[2-4] (previous MM-PBSA applications were mostly performed with a numerical PB solver in the widely used DelPhi program, implemented in AMBER program package) or by the Adaptive Poisson Boltzmann Solver (APBS) program through the iAPBS interface with AMBER. Estimation of the non-polar contribution to the solvation free energy is based on the solvent-accessible-surface-area calculations. Here, the results of MM-PBSA calculations, applied to study of free enzyme tertiary structure change[5] and enzyme-ligand binding will be presented. Structure used for MM- PBSA calculations were extracted from bound and unbound dipeptidyl peptidase III (DPP III) MD trajectories. The results agree very well with experimental findings that protein can adopt two different conformations, "open" and "closed". In addition, several ligand binding modes were found and binding with the ligand in an extended conformation, consistent with the experiment, was identified as the energetically most favorable one. In this conformation first two ligand residues form a β-strand which binds to the five- stranded β-core of DPP III in an antiparallel fashion.
Vrsta sudjelovanja: Poster
Vrsta prezentacije u zborniku: Sažetak
Vrsta recenzije: Međunarodna recenzija
Projekt / tema: 098-1191344-2860
Izvorni jezik: eng
Kategorija: Znanstveni
Znanstvena područja:
Kemija
Upisao u CROSBI: Antonija Tomić (Antonija.Tomic@irb.hr), 17. Srp. 2013. u 09:35 sati



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