| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2006PNAS..10314732B |
| P356 | DOI | 10.1073/PNAS.0604448103 |
| P932 | PMC publication ID | 1595420 |
| P698 | PubMed publication ID | 16990434 |
| P5875 | ResearchGate publication ID | 6804904 |
| P50 | author | Marko Goličnik | Q114375264 |
| Wolfgang Bermel | Q114736119 | ||
| Andrea M Hounslow | Q114740153 | ||
| Florian Hollfelder | Q38804519 | ||
| Nicholas H Williams | Q58085648 | ||
| Luis F Olguin | Q58476764 | ||
| Jonathan Waltho | Q63386282 | ||
| Guo-Qiang Feng | Q77150896 | ||
| P2093 | author name string | Nicola J Baxter | |
| G Michael Blackburn | |||
| P2860 | cites work | MgF(3)(-) as a transition state analog of phosphoryl transfer | Q24292944 |
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| Purification and enzymatic characterization of PgcM: a beta-phosphoglucomutase and glucose-1-phosphate phosphodismutase of Bacillus subtilis | Q73198200 | ||
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| Formation constants beta(2) of calcium and magnesium fluorides at 25 degrees C | Q79747827 | ||
| P433 | issue | 40 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 14732-14737 | |
| P577 | publication date | 2006-09-21 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | A Trojan horse transition state analogue generated by MgF3- formation in an enzyme active site | |
| P478 | volume | 103 |
| Q31040971 | (19)F NMR and DFT Analysis Reveal Structural and Electronic Transition State Features for RhoA-Catalyzed GTP Hydrolysis |
| Q92515133 | 1H, 15N and 13C backbone resonance assignments of the P146A variant of β-phosphoglucomutase from Lactococcus lactis in its substrate-free form |
| Q27644728 | A comparison of vanadate to a 2'-5' linkage at the active site of a small ribozyme suggests a role for water in transition-state stabilization |
| Q101165902 | Allomorphy as a mechanism of post-translational control of enzyme activity |
| Q38789325 | Assessing the Influence of Mutation on GTPase Transition States by Using X-ray Crystallography, 19 F NMR, and DFT Approaches |
| Q27659897 | Atomic details of near-transition state conformers for enzyme phosphoryl transfer revealed by Formula rather than by phosphoranes |
| Q24617627 | Biological phosphoryl-transfer reactions: understanding mechanism and catalysis |
| Q27667818 | Briefly Bound to Activate: Transient Binding of a Second Catalytic Magnesium Activates the Structure and Dynamics of CDK2 Kinase for Catalysis |
| Q30569983 | Catalytic mechanism of α-phosphate attack in dUTPase is revealed by X-ray crystallographic snapshots of distinct intermediates, 31P-NMR spectroscopy and reaction path modelling. |
| Q57970611 | Chapter 3 Applications of the NOE in Molecular Biology |
| Q54473450 | Charge-balanced metal fluoride complexes for protein kinase A with adenosine diphosphate and substrate peptide SP20. |
| Q58486556 | How to name atoms in phosphates, polyphosphates, their derivatives and mimics, and transition state analogues for enzyme-catalysed phosphoryl transfer reactions (IUPAC Recommendations 2016) |
| Q27660261 | Insights into the Reaction of Protein-tyrosine Phosphatase 1B: CRYSTAL STRUCTURES FOR TRANSITION STATE ANALOGS OF BOTH CATALYTIC STEPS |
| Q45858883 | Kinetic and computational evidence for an intermediate in the hydrolysis of sulfonate esters |
| Q38373982 | Kinetic isotope effects for alkaline phosphatase reactions: implications for the role of active-site metal ions in catalysis |
| Q44997607 | Mechanistic evidence for a front-side, SNi-type reaction in a retaining glycosyltransferase |
| Q39013099 | Metal Fluorides as Analogues for Studies on Phosphoryl Transfer Enzymes. |
| Q39181456 | Metal Fluorides: Tools for Structural and Computational Analysis of Phosphoryl Transfer Enzymes. |
| Q51251527 | MgF3- and AlF4- transition state analogue complexes of yeast phosphoglycerate kinase. |
| Q27678553 | Near attack conformers dominate -phosphoglucomutase complexes where geometry and charge distribution reflect those of substrate |
| Q52331609 | Observing enzyme ternary transition state analogue complexes by 19F NMR spectroscopy. |
| Q54288705 | On the mechanism of phosphoenolpyruvate synthetase (PEPs) and its inhibition by sodium fluoride: potential magnesium and aluminum fluoride complexes of phosphoryl transfer. |
| Q36019839 | Promiscuity in the Enzymatic Catalysis of Phosphate and Sulfate Transfer |
| Q27644742 | Structure–function analysis of the 3′ phosphatase component of T4 polynucleotide kinase/phosphatase |
| Q54959210 | Synthesis, structure and reactivity of a terminal magnesium fluoride compound, [TpBut,Me]MgF: hydrogen bonding, halogen bonding and C-F bond formation. |
| Q27650273 | The catalytic scaffold of the haloalkanoic acid dehalogenase enzyme superfamily acts as a mold for the trigonal bipyramidal transition state |
| Q27685288 | Tying down the arm in Bacillus dUTPase: structure and mechanism |
| Q38073986 | Why nature really chose phosphate |
| Q27665984 | X-ray crystallographic snapshots of reaction intermediates in the G117H mutant of human butyrylcholinesterase, a nerve agent target engineered into a catalytic bioscavenger |
| Q30841403 | α-Fluorophosphonates reveal how a phosphomutase conserves transition state conformation over hexose recognition in its two-step reaction. |
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