Modeling studies with Helicobacter pylori octaprenyl pyrophosphate synthase reveal the enzymatic mechanism of trans-prenyltransferases

Octaprenyl pyrophosphate synthase (OPPs), an enzyme belonging to the trans-prenyltransferases family, is involved in the synthesis of C40 octaprenyl pyrophosphate (OPP) by reacting farnesyl pyrophosphate (FPP) with five isopentenyl pyrophosphates (IPP). It has been reported that OPPs is essential fo...

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Bibliographic Details
Published in:The international journal of biochemistry & cell biology 2012-12, Vol.44 (12), p.2116-2123
Main Authors: Zhang, Jinyong, Zhang, Xiaoli, Zhang, Rui, Wu, Chao, Guo, Ying, Mao, Xuhu, Guo, Gang, Zhang, Ying, Wang, Da-Cheng, Li, Defeng, Zou, Quanming
Format: Article
Language:English
Subjects:
Alkyl and Aryl Transferases - chemistry
Alkyl and Aryl Transferases - genetics
Amino Acid Sequence
Amino Acid Substitution
bacteria
Bacterial Proteins - chemistry
Bacterial Proteins - genetics
binding sites
biochemistry
Catalytic Domain
Catalytic mechanism
cell biology
Conserved Sequence
crystal structure
Crystallography, X-Ray
drugs
Farnesyl pyrophosphate
Helicobacter pylori
Helicobacter pylori - enzymology
Hemiterpenes - chemistry
Hydrogen Bonding
Hydrophobic and Hydrophilic Interactions
Isopentenyl pyrophosphate
magnesium
Molecular Docking Simulation
Molecular Sequence Data
Mutagenesis, Site-Directed
Octaprenyl pyrophosphate synthase
Organophosphorus Compounds - chemistry
Polyisoprenyl Phosphates - chemistry
Protein Binding
Protein Interaction Domains and Motifs
Protein Structure, Secondary
pyrophosphates
Sesquiterpenes - chemistry
Structure
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Summary:Octaprenyl pyrophosphate synthase (OPPs), an enzyme belonging to the trans-prenyltransferases family, is involved in the synthesis of C40 octaprenyl pyrophosphate (OPP) by reacting farnesyl pyrophosphate (FPP) with five isopentenyl pyrophosphates (IPP). It has been reported that OPPs is essential for bacteria's normal growth and is a potential target for novel antibacterial drug design. Here we report the crystal structure of OPPs from Helicobacter pylori, determined by MAD method at 2.8Å resolution and refined to 2.0Å resolution. The substrate IPP was docked into HpOPPs structure and residues involved in IPP recognition were identified. The other substrate FPP, the intermediate GGPP and a nitrogen-containing bisphosphonate drug were also modeled into the structure. The resulting model shed some lights on the enzymatic mechanism, including (1) residues Arg87, Lys36 and Arg39 are essential for IPP binding; (2) residues Lys162, Lys224 and Gln197 are involved in FPP binding; (3) the second DDXXD motif may involve in FPP binding by Mg2+ mediated interactions; (4) Leu127 is probably involved in product chain length determination in HpOPPs and (5) the intermediate products such as GGPP need a rearrange to occupy the binding site of FPP and then IPP is reloaded. Our results also indicate that the nitrogen-containing bisphosphonate drugs are potential inhibitors of FPPs and other trans-prenyltransferases aiming at blocking the binding of FPP.
ISSN:1357-2725
1878-5875
DOI:10.1016/j.biocel.2012.09.002