2016
DOI: 10.1080/07391102.2015.1108231
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Analysis of non-peptidic compounds as potential malarial inhibitors against Plasmodial cysteine proteases via integrated virtual screening workflow

Abstract: Falcipain-2 and falcipain-3, haemoglobin degrading enzymes in Plasmodium falciparum, are validated drug targets for the development of effective inhibitors against malaria. However, no commercial drug targeting falcipains has been developed despite their central role in the life-cycle of the parasites. In this work, in silico approaches are used to identify key structural elements that control the binding and selectivity of a diverse set of non-peptidic compounds onto FP-2, FP-3 and homologs from other Plasmod… Show more

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Cited by 30 publications
(55 citation statements)
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“…A similar conclusion, in particular referring to N173, was drawn by Musyoka et al . based on per‐residue binding free energy decomposition for the predicted complex structures of FP‐2 and various 2‐cyanopyrimidine nitrile (CP) derivatives . However, G83 does not seem to be energetically favorable for the binding of CPs to FP‐2, according to the authors' predictions, which underscores the structural differences of these nonpeptidic compounds and the inhibitors studied here, especially in their respective P3 sites.…”
Section: Resultsmentioning
confidence: 72%
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“…A similar conclusion, in particular referring to N173, was drawn by Musyoka et al . based on per‐residue binding free energy decomposition for the predicted complex structures of FP‐2 and various 2‐cyanopyrimidine nitrile (CP) derivatives . However, G83 does not seem to be energetically favorable for the binding of CPs to FP‐2, according to the authors' predictions, which underscores the structural differences of these nonpeptidic compounds and the inhibitors studied here, especially in their respective P3 sites.…”
Section: Resultsmentioning
confidence: 72%
“…Three FP‐2 residues, that is, Q36, G83, and N173, were predicted to form hydrogen bonds with the backbone nitrogen and oxygen atoms at P2 to P1′ sites of the ligands with relatively high occupancies (Supporting Information, Table S2). Equivalent hydrogen bonds occur at the interfaces of crystal structures of C1 cysteine proteases in complex with peptide‐based inhibitors, and have been predicted for FP‐2 and other homologous enzymes complexed with nonpeptidic compounds . Remarkably, G83 and N173 each formed up to two hydrogen bonds with the inhibitors ((a–d), Fig.…”
Section: Resultsmentioning
confidence: 81%
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“…It can be used to check if a protein structure remains stable after the introduction of one or more SNPs. Similarly, it can be used to determine the stability of protein-ligand complexes after docking [90]. While molecular docking predicts how well a compound docks to a receptor, molecular dynamics can predict how stably bound the compound is and whether it will stay bound over a specified period.…”
Section: Role Of Structural Bioinformatics – Snp Analysis In Drug Dismentioning
confidence: 99%
“…Molecular docking simulations are often used in combination with homology modeling and virtual screening [90,91]. In terms of computational SNP analysis, molecular dynamics can be used to determine whether introducing a SNP will destabilize a protein or perhaps cause the protein to move or fold in a different way [92].…”
Section: Role Of Structural Bioinformatics – Snp Analysis In Drug Dismentioning
confidence: 99%