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W3142007235 endingPage "8260" @default.
W3142007235 startingPage "8248" @default.
W3142007235 abstract "Schistosomiasis is a parasitic disease that is part of the neglected tropical diseases (NTDs), which cause significant levels of morbidity and mortality in millions of people throughout the world. The enzyme purine nucleoside phosphorylase from Schistosoma mansoni (SmPNP) represents a potential target for discovering new agents, and neolignans stand out as an important class of compounds. In this work, molecular modeling studies and biological assays of a set of neolignans were conducted against the PNP enzymes of the parasite and the human homologue (HssPNP). The results of the molecular docking described that the neolignans showed good complementarity by the active site of SmPNP. Molecular dynamics (MD) studies revealed that both complexes (Sm/HssPNP - neolignan compounds) were stable by analyzing the root mean square deviation (RMSD) values, and the binding free energy values suggest that the selected structures can interact and inhibit the catalytic activity of the SmPNP. Finally, the biological assay indicated that the selected neolignans presented a better molecular profile of inhibition compared to the human enzyme, as these ligands did not have the capacity to inhibit enzymatic activity, indicating that these compounds are promising candidates and that they can be used in future research in chemotherapy for schistosomiasis.Communicated by Ramaswamy H. Sarma." @default.
W3142007235 created "2021-04-13" @default.
W3142007235 creator A5013677770 @default.
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W3142007235 creator A5084790722 @default.
W3142007235 date "2021-04-08" @default.
W3142007235 modified "2023-10-17" @default.
W3142007235 title "Identification of potential inhibitors of <i>Schistosoma mansoni</i> purine nucleoside phosphorylase from neolignan compounds using molecular modelling approaches" @default.
W3142007235 cites W1572431390 @default.
W3142007235 cites W1968984443 @default.
W3142007235 cites W1970498202 @default.
W3142007235 cites W1971777672 @default.
W3142007235 cites W1976499671 @default.
W3142007235 cites W1978330227 @default.
W3142007235 cites W1979046104 @default.
W3142007235 cites W1989212967 @default.
W3142007235 cites W1991474023 @default.
W3142007235 cites W1994941561 @default.
W3142007235 cites W2006732267 @default.
W3142007235 cites W2008392808 @default.
W3142007235 cites W2008517160 @default.
W3142007235 cites W2009245140 @default.
W3142007235 cites W2017659276 @default.
W3142007235 cites W2018633278 @default.
W3142007235 cites W2019574809 @default.
W3142007235 cites W2020043868 @default.
W3142007235 cites W2022655817 @default.
W3142007235 cites W2027482274 @default.
W3142007235 cites W2030686695 @default.
W3142007235 cites W2037535298 @default.
W3142007235 cites W2042400131 @default.
W3142007235 cites W2054698135 @default.
W3142007235 cites W2056180063 @default.
W3142007235 cites W2061912713 @default.
W3142007235 cites W2066147675 @default.
W3142007235 cites W2067174909 @default.
W3142007235 cites W2067384493 @default.
W3142007235 cites W2067455153 @default.
W3142007235 cites W2074473216 @default.
W3142007235 cites W2075369230 @default.
W3142007235 cites W2082040139 @default.
W3142007235 cites W2094642658 @default.
W3142007235 cites W2096360825 @default.
W3142007235 cites W2105103540 @default.
W3142007235 cites W2106140689 @default.
W3142007235 cites W2110283222 @default.
W3142007235 cites W2116635595 @default.
W3142007235 cites W2118233996 @default.
W3142007235 cites W2130479394 @default.
W3142007235 cites W2132629607 @default.
W3142007235 cites W2140494151 @default.
W3142007235 cites W2144288821 @default.
W3142007235 cites W2147993766 @default.
W3142007235 cites W2162354327 @default.
W3142007235 cites W2167579414 @default.
W3142007235 cites W2171234651 @default.
W3142007235 cites W2181695372 @default.
W3142007235 cites W2183490316 @default.
W3142007235 cites W2299176911 @default.
W3142007235 cites W2323178299 @default.
W3142007235 cites W2332712348 @default.
W3142007235 cites W2471875889 @default.
W3142007235 cites W2592488832 @default.
W3142007235 cites W2599189039 @default.
W3142007235 cites W2606601548 @default.
W3142007235 cites W2742977816 @default.
W3142007235 cites W2767751849 @default.
W3142007235 cites W2790079983 @default.
W3142007235 cites W2791605413 @default.
W3142007235 cites W2792319416 @default.
W3142007235 cites W2797576193 @default.
W3142007235 cites W2800695999 @default.
W3142007235 cites W2800892557 @default.
W3142007235 cites W2801213622 @default.
W3142007235 cites W2806903382 @default.
W3142007235 cites W2883197357 @default.
W3142007235 cites W2944889035 @default.
W3142007235 cites W2981841512 @default.
W3142007235 cites W366357061 @default.
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W3142007235 doi "https://doi.org/10.1080/07391102.2021.1910073" @default.
W3142007235 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33830889" @default.
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