2R3V
The Biochemical and Structural Basis for Feedback Inhibition of Mevalonate Kinase and Isoprenoid Metabolism
Summary for 2R3V
| Entry DOI | 10.2210/pdb2r3v/pdb |
| Descriptor | Mevalonate kinase (2 entities in total) |
| Functional Keywords | mevalonate kinase, farnesyl thiodiphophate, atp-binding, cataract, cholesterol biosynthesis, cytoplasm, disease mutation, lipid synthesis, nucleotide-binding, peroxisome, polymorphism, steroid biosynthesis, sterol biosynthesis, transferase |
| Biological source | Homo sapiens (Human) |
| Cellular location | Cytoplasm: Q03426 |
| Total number of polymer chains | 4 |
| Total formula weight | 169991.05 |
| Authors | Fu, Z.,Voynova, N.E.,Miziorko, H.M.,Kim, J.P. (deposition date: 2007-08-30, release date: 2008-06-24, Last modification date: 2023-08-30) |
| Primary citation | Fu, Z.,Voynova, N.E.,Herdendorf, T.J.,Miziorko, H.M.,Kim, J.J. Biochemical and Structural Basis for Feedback Inhibition of Mevalonate Kinase and Isoprenoid Metabolism. Biochemistry, 47:3715-3724, 2008 Cited by PubMed Abstract: Mevalonate kinase (MK), which catalyzes a key reaction in polyisoprenoid and sterol metabolism in many organisms, is subject to feedback regulation by farnesyl diphosphate and related compounds. The structures of human mevalonate kinase and a binary complex of the rat enzyme incubated with farnesyl thiodiphosphate (FSPP) are reported. Significant FSPP hydrolysis occurs under crystallization conditions; this results in detection of farnesyl thiophosphate (FSP) in the structure of the binary complex. Farnesyl thiodiphosphate competes with substrate ATP to produce feedback inhibition of mevalonate kinase. The binding sites for these metabolites overlap, with the phosphate of FSP nearly superimposed on ATP's beta-phosphate and FSP's polyisoprenoid chain overlapping ATP's adenosine moiety. Several hydrophobic amino acid side chains are positioned near the polyisoprenoid chain of FSP and their functional significance has been evaluated in mutagenesis experiments with human MK, which exhibits the highest reported sensitivity to feedback inhibition. Results suggest that single and double mutations at T104 and I196 produce a significant inflation of the K(i) for FSPP (approximately 40-fold for T104A/I196A). Such an effect persists when K(i) values are normalized for effects on the K(m) for ATP, suggesting that it may be possible to engineer MK proteins with altered sensitivity to feedback inhibition. Comparison of animal MK protein alignments and structures with those of a MK protein from Streptococcus pneumoniae indicates that sequence differences between N- and C-terminal domains correlate with differences in interdomain angles. Bacterial MK proteins exhibit more solvent exposure of feedback inhibitor binding sites and, consequently, weaker binding of these inhibitors. PubMed: 18302342DOI: 10.1021/bi7024386 PDB entries with the same primary citation |
| Experimental method | X-RAY DIFFRACTION (2.5 Å) |
Structure validation
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