Escherichia coli Purine Nucleoside Phosphorylase II, the Product of the xapA Gene

Purine nucleoside phosphorylases (PNPs, E. C. 2.4.2.1) use orthophosphate to cleave the N-glycosidic bond of β-(deoxy)ribonucleosides to yield α-(deoxy)ribose 1-phosphate and the free purine base. Escherichia coli PNP-II, the product of the xapA gene, is similar to trimeric PNPs in sequence, but has...

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Published inJournal of molecular biology Vol. 348; no. 1; pp. 113 - 125
Main Authors Dandanell, Gert, Szczepanowski, Roman H., Kierdaszuk, Borys, Shugar, David, Bochtler, Matthias
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 22.04.2005
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Summary:Purine nucleoside phosphorylases (PNPs, E. C. 2.4.2.1) use orthophosphate to cleave the N-glycosidic bond of β-(deoxy)ribonucleosides to yield α-(deoxy)ribose 1-phosphate and the free purine base. Escherichia coli PNP-II, the product of the xapA gene, is similar to trimeric PNPs in sequence, but has been reported to migrate as a hexamer and to accept xanthosine with comparable efficiency to guanosine and inosine, the usual physiological substrates for trimeric PNPs. Here, we present a detailed biochemical characterization and the crystal structure of E. coli PNP-II. In three different crystal forms, PNP-II trimers dimerize, leading to a subunit arrangement that is qualitatively different from the “trimer of dimers” arrangement of conventional high molecular mass PNPs. Crystal structures are compatible with similar binding modes for guanine and xanthine, with a preference for the neutral over the monoanionic form of xanthine. A single amino acid exchange, tyrosine 191 to leucine, is sufficient to convert E. coli PNP-II into an enzyme with the specificity of conventional trimeric PNPs, but the reciprocal mutation in human PNP, valine 195 to tyrosine, does not elicit xanthosine phosphorylase activity in the human enzyme.
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ISSN:0022-2836
1089-8638
DOI:10.1016/j.jmb.2005.02.019