Sandbox Reserved 342

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This Sandbox is Reserved from January 10, 2010, through April 10, 2011 for use in BCMB 307-Proteins course taught by Andrea Gorrell at the University of Northern British Columbia, Prince George, BC, Canada.
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PDB ID 1a96

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1a96, resolution 2.00Å ()
Ligands: , , ,
Gene: GPT (Escherichia coli)
Activity: Xanthine phosphoribosyltransferase, with EC number 2.4.2.22
Resources: FirstGlance, OCA, RCSB, PDBsum
Coordinates: save as pdb, mmCIF, xml




XANTHINE-GUANINE PHOSPHORIBOSYLTRANSFERASEXANTHINE-GUANINE PHOSPHORIBOSYLTRANSFERASE

IntroductionIntroduction

Xanthine-guanine Phosphoribosyltansferase (XGPRT) is one of three purine phosphoribosyltransferases (PRTases) that are part of the purine salvage pathway in Escherichia coli[1]; the other two PRTases in the pathway are HPRT and APRT[1]

StructureStructure

XGPRT is a tetramer[1]. PRTase structures fall into two groups, type I and Type II[1]. XGTPase has a conserved sequence,85-IVIDDLVDTG-94, which is called the PRib-PP (5-phospho-a-D-ribosyl-1-pyrophosphate)[1](The binding sites of each subunit is shown in pink). This binding site features two adjacent acidic residues, which are surrounded by hydrophobic residues[1]. There is a five-stranded b-sheet surrounded by three or four a-helices that creates a conserved structural core containing the PRib-PP binding site[1]. Another region of the sequence in XGTPase forms a lobe, which is involved in substrate recognition[1].

FunctionFunction

XGPRT is an enzyme that catalyzes the conversion of guanine, xanthine, and sometimes hypoxanthine, to GMP, XMP, and IMP [1].

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MechanismMechanism

In the large mobile loop of the XGPRT, there are several residues that are critical for substrate binding and catalysis[1].

CatalysisCatalysis

Magnesium and other divalent cations are necessary for catalysis because magnesium and PRib-PP binding play a critical role for the PRTase reaction[1]. The Mg:PRib-PP complex binds to the active site of PRTases[1]. In type I PRTases, XGPRT, catalysis proceeds via SN1 mechanism and it forms a oxocarbonium ion in the transition state[1]. It has been suggested, that the magnesium ion departs with the displaced pyrophosphate because there is no magnesium ion at the active site[1].

ReferencesReferences

  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 1.11 1.12 1.13 Vos S, Parry RJ, Burns MR, de Jersey J, Martin JL. Structures of free and complexed forms of Escherichia coli xanthine-guanine phosphoribosyltransferase. J Mol Biol. 1998 Oct 2;282(4):875-89. PMID:9743633 doi:10.1006/jmbi.1998.2051

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OCA, Sara Sebastian
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