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2V0I

Characterization of Substrate Binding and Catalysis of the Potential Antibacterial Target N-acetylglucosamine-1-phosphate Uridyltransferase (GlmU)

Summary for 2V0I
Entry DOI10.2210/pdb2v0i/pdb
Related2V0H 2V0J 2V0K 2V0L
DescriptorBIFUNCTIONAL PROTEIN GLMU, URIDINE-DIPHOSPHATE-N-ACETYLGLUCOSAMINE, TETRAETHYLENE GLYCOL, ... (6 entities in total)
Functional Keywordscell wall, cell shape, transferase, peptidoglycan associative mechanism, multifunctional enzyme, nucleotidyltransferase, uridylation, metal-binding, acyltransferase
Biological sourceHAEMOPHILUS INFLUENZAE
Cellular locationCytoplasm (By similarity): P43889
Total number of polymer chains1
Total formula weight51024.37
Authors
Mochalkin, I.,Lightle, S.,Ohren, J.F.,Chirgadze, N.Y. (deposition date: 2007-05-14, release date: 2008-01-15, Last modification date: 2023-12-13)
Primary citationMochalkin, I.,Lightle, S.,Zhu, Y.,Ohren, J.F.,Spessard, C.,Chirgadze, N.Y.,Banotai, C.,Melnick, M.,Mcdowell, L.
Characterization of Substrate Binding and Catalysis in the Potential Antibacterial Target N-Acetylglucosamine-1-Phosphate Uridyltransferase (Glmu).
Protein Sci., 16:2657-, 2007
Cited by
PubMed Abstract: N-Acetylglucosamine-1-phosphate uridyltransferase (GlmU) catalyzes the first step in peptidoglycan biosynthesis in both Gram-positive and Gram-negative bacteria. The products of the GlmU reaction are essential for bacterial survival, making this enzyme an attractive target for antibiotic drug discovery. A series of Haemophilus influenzae GlmU (hiGlmU) structures were determined by X-ray crystallography in order to provide structural and functional insights into GlmU activity and inhibition. The information derived from these structures was combined with biochemical characterization of the K25A, Q76A, D105A, Y103A, V223A, and E224A hiGlmU mutants in order to map these active-site residues to catalytic activity of the enzyme and refine the mechanistic model of the GlmU uridyltransferase reaction. These studies suggest that GlmU activity follows a sequential substrate-binding order that begins with UTP binding noncovalently to the GlmU enzyme. The uridyltransferase active site then remains in an open apo-like conformation until N-acetylglucosamine-1-phosphate (GlcNAc-1-P) binds and induces a conformational change at the GlcNAc-binding subsite. Following the binding of GlcNAc-1-P to the UTP-charged uridyltransferase active site, the non-esterified oxygen of GlcNAc-1-P performs a nucleophilic attack on the alpha-phosphate group of UTP. The new data strongly suggest that the mechanism of phosphotransfer in the uridyltransferase reaction in GlmU is primarily through an associative mechanism with a pentavalent phosphate intermediate and an inversion of stereochemistry. Finally, the structural and biochemical characterization of the uridyltransferase active site and catalytic mechanism described herein provides a basis for the structure-guided design of novel antibacterial agents targeting GlmU activity.
PubMed: 18029420
DOI: 10.1110/PS.073135107
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.89 Å)
Structure validation

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