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W2300835876 startingPage "2153" @default.
W2300835876 abstract "Purine nucleoside phosphorylase (PNP) catalyzes the reversible phosphorolysis of purine ribonucleosides and 2'-deoxyribonucleosides, yielding the purine base and (2'-deoxy)ribose 1-phosphate as products. While this enzyme has been extensively studied, several questions with respect to the catalytic mechanism have remained largely unanswered. The role of the phosphate and key amino acid residues in the catalytic reaction as well as the purine ring protonation state is elucidated using density functional theory calculations and extensive empirical valence bond (EVB) simulations. Free energy surfaces for adenosine, inosine, and guanosine are fitted to ab initio data and yield quantitative agreement with experimental data when the surfaces are used to model the corresponding enzymatic reactions. The cognate substrates 6-aminopurines (inosine and guanosine) interact with PNP through extensive hydrogen bonding, but the substrate specificity is found to be a direct result of the electrostatic preorganization energy along the reaction coordinate. Asn243 has previously been identified as a key residue providing substrate specificity. Mutation of Asn243 to Asp has dramatic effects on the substrate specificity, making 6-amino- and 6-oxopurines equally good as substrates. The principal effect of this particular mutation is the change in the electrostatic preorganization energy between the native enzyme and the Asn243Asp mutant, clearly favoring adenosine over inosine and guanosine. Thus, the EVB simulations show that this particular mutation affects the electrostatic preorganization of the active site, which in turn can explain the substrate specificity." @default.
W2300835876 created "2016-06-24" @default.
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W2300835876 creator A5048876968 @default.
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W2300835876 date "2016-03-29" @default.
W2300835876 modified "2023-10-17" @default.
W2300835876 title "Computer Simulations Reveal Substrate Specificity of Glycosidic Bond Cleavage in Native and Mutant Human Purine Nucleoside Phosphorylase" @default.
W2300835876 cites W132669802 @default.
W2300835876 cites W1501663495 @default.
W2300835876 cites W1533354213 @default.
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W2300835876 cites W1962880044 @default.
W2300835876 cites W1966303843 @default.
W2300835876 cites W1969470319 @default.
W2300835876 cites W1973058081 @default.
W2300835876 cites W1973761590 @default.
W2300835876 cites W1976499671 @default.
W2300835876 cites W1976980965 @default.
W2300835876 cites W1980569536 @default.
W2300835876 cites W1982680156 @default.
W2300835876 cites W1983283509 @default.
W2300835876 cites W1984220940 @default.
W2300835876 cites W1984785981 @default.
W2300835876 cites W1994415899 @default.
W2300835876 cites W1997151511 @default.
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W2300835876 cites W2013036021 @default.
W2300835876 cites W2014305334 @default.
W2300835876 cites W2014613440 @default.
W2300835876 cites W2022671749 @default.
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W2300835876 cites W2032117722 @default.
W2300835876 cites W2033253133 @default.
W2300835876 cites W2038083805 @default.
W2300835876 cites W2040066014 @default.
W2300835876 cites W2044591029 @default.
W2300835876 cites W2044656372 @default.
W2300835876 cites W2050357762 @default.
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W2300835876 cites W2054579435 @default.
W2300835876 cites W2054881399 @default.
W2300835876 cites W2059816825 @default.
W2300835876 cites W2062858976 @default.
W2300835876 cites W2064013612 @default.
W2300835876 cites W2076790509 @default.
W2300835876 cites W2079378100 @default.
W2300835876 cites W2086957099 @default.
W2300835876 cites W2087206903 @default.
W2300835876 cites W2092126394 @default.
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W2300835876 cites W2329090107 @default.
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W2300835876 doi "https://doi.org/10.1021/acs.biochem.5b01347" @default.
W2300835876 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26985580" @default.
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