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3PNQ

Crystal Structure of E.coli Dha kinase DhaK (H56N) complex with Dha

Summary for 3PNQ
Entry DOI10.2210/pdb3pnq/pdb
Related3PNK 3PNL 3PNM 3PNO
DescriptorPTS-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit dhaK, Dihydroxyacetone (3 entities in total)
Functional Keywordsstructural genomics, montreal-kingston bacterial structural genomics initiative, bsgi, transferase
Biological sourceEscherichia coli
Total number of polymer chains4
Total formula weight153049.87
Authors
Shi, R.,McDonald, L.,Matte, A.,Cygler, M.,Ekiel, I.,Montreal-Kingston Bacterial Structural Genomics Initiative (BSGI) (deposition date: 2010-11-19, release date: 2011-01-12, Last modification date: 2024-02-21)
Primary citationShi, R.,McDonald, L.,Cui, Q.,Matte, A.,Cygler, M.,Ekiel, I.
Structural and mechanistic insight into covalent substrate binding by Escherichia coli dihydroxyacetone kinase.
Proc.Natl.Acad.Sci.USA, 108:1302-1307, 2011
Cited by
PubMed Abstract: The Escherichia coli dihydroxyacetone (Dha) kinase is an unusual kinase because (i) it uses the phosphoenolpyruvate carbohydrate: phosphotransferase system (PTS) as the source of high-energy phosphate, (ii) the active site is formed by two subunits, and (iii) the substrate is covalently bound to His218(K)* of the DhaK subunit. The PTS transfers phosphate to DhaM, which in turn phosphorylates the permanently bound ADP coenzyme of DhaL. This phosphoryl group is subsequently transferred to the Dha substrate bound to DhaK. Here we report the crystal structure of the E. coli Dha kinase complex, DhaK-DhaL. The structure of the complex reveals that DhaK undergoes significant conformational changes to accommodate binding of DhaL. Combined mutagenesis and enzymatic activity studies of kinase mutants allow us to propose a catalytic mechanism for covalent Dha binding, phosphorylation, and release of the Dha-phosphate product. Our results show that His56(K) is involved in formation of the covalent hemiaminal bond with Dha. The structure of H56N(K) with noncovalently bound substrate reveals a somewhat different positioning of Dha in the binding pocket as compared to covalently bound Dha, showing that the covalent attachment to His218(K) orients the substrate optimally for phosphoryl transfer. Asp109(K) is critical for activity, likely acting as a general base activating the γ-OH of Dha. Our results provide a comprehensive picture of the roles of the highly conserved active site residues of dihydroxyacetone kinases.
PubMed: 21209328
DOI: 10.1073/pnas.1012596108
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.2 Å)
Structure validation

226707

數據於2024-10-30公開中

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