Reviews - 1hzy mentioned but not cited (4)
- Why reinvent the wheel? Building new proteins based on ready-made parts. Khersonsky O, Fleishman SJ. Protein Sci. 25 1179-1187 (2016)
- Mechanistic Studies of Homo- and Heterodinuclear Zinc Phosphoesterase Mimics: What Has Been Learned? Erxleben A. Front Chem 7 82 (2019)
- Enhancing organophosphate hydrolase efficacy via protein engineering and immobilization strategies. Katyal P, Chu S, Montclare JK. Ann N Y Acad Sci 1480 54-72 (2020)
- Enzymatic Bioremediation of Organophosphate Compounds-Progress and Remaining Challenges. Thakur M, Medintz IL, Walper SA. Front Bioeng Biotechnol 7 289 (2019)
Articles - 1hzy mentioned but not cited (13)
- Functional annotation and three-dimensional structure of Dr0930 from Deinococcus radiodurans, a close relative of phosphotriesterase in the amidohydrolase superfamily. Xiang DF, Kolb P, Fedorov AA, Meier MM, Fedorov LV, Nguyen TT, Sterner R, Almo SC, Shoichet BK, Raushel FM. Biochemistry 48 2237-2247 (2009)
- Enzymes for the homeland defense: optimizing phosphotriesterase for the hydrolysis of organophosphate nerve agents. Tsai PC, Fox N, Bigley AN, Harvey SP, Barondeau DP, Raushel FM. Biochemistry 51 6463-6475 (2012)
- Structure of diethyl phosphate bound to the binuclear metal center of phosphotriesterase. Kim J, Tsai PC, Chen SL, Himo F, Almo SC, Raushel FM. Biochemistry 47 9497-9504 (2008)
- Structural determinants for the stereoselective hydrolysis of chiral substrates by phosphotriesterase. Tsai PC, Fan Y, Kim J, Yang L, Almo SC, Gao YQ, Raushel FM. Biochemistry 49 7988-7997 (2010)
- Structure and catalytic mechanism of LigI: insight into the amidohydrolase enzymes of cog3618 and lignin degradation. Hobbs ME, Malashkevich V, Williams HJ, Xu C, Sauder JM, Burley SK, Almo SC, Raushel FM. Biochemistry 51 3497-3507 (2012)
- The role of nonbonded interactions in the conformational dynamics of organophosphorous hydrolase adsorbed onto functionalized mesoporous silica surfaces. Gomes DE, Lins RD, Pascutti PG, Lei C, Soares TA. J Phys Chem B 114 531-540 (2010)
- 300-Fold increase in production of the Zn2+-dependent dechlorinase TrzN in soluble form via apoenzyme stabilization. Jackson CJ, Coppin CW, Carr PD, Aleksandrov A, Wilding M, Sugrue E, Ubels J, Paks M, Newman J, Peat TS, Russell RJ, Field M, Weik M, Oakeshott JG, Scott C. Appl. Environ. Microbiol. 80 4003-4011 (2014)
- Automated Design of Efficient and Functionally Diverse Enzyme Repertoires. Khersonsky O, Lipsh R, Avizemer Z, Ashani Y, Goldsmith M, Leader H, Dym O, Rogotner S, Trudeau DL, Prilusky J, Amengual-Rigo P, Guallar V, Tawfik DS, Fleishman SJ. Mol. Cell 72 178-186.e5 (2018)
- Conformational variability of organophosphorus hydrolase upon soman and paraoxon binding. Gomes DE, Lins RD, Pascutti PG, Lei C, Soares TA. J Phys Chem B 115 15389-15398 (2011)
- Evolutionary expansion of the amidohydrolase superfamily in bacteria in response to the synthetic compounds molinate and diuron. Sugrue E, Fraser NJ, Hopkins DH, Carr PD, Khurana JL, Oakeshott JG, Scott C, Jackson CJ. Appl. Environ. Microbiol. 81 2612-2624 (2015)
- The effect of conformational variability of phosphotriesterase upon N-acyl-L-homoserine lactone and paraoxon binding: insights from molecular dynamics studies. Zhan D, Zhou Z, Guan S, Han W. Molecules 18 15501-15518 (2013)
- Enhancing Paraoxon Binding to Organophosphorus Hydrolase Active Site. El Khoury L, Mobley DL, Ye D, Rempe SB. Int J Mol Sci 22 12624 (2021)
- Mining Marine Metagenomes Revealed a Quorum-Quenching Lactonase with Improved Biochemical Properties That Inhibits the Food Spoilage Bacterium Pseudomonas fluorescens. Haramati R, Dor S, Gurevich D, Levy D, Freund D, Rytwo G, Sharon I, Afriat-Jurnou L. Appl Environ Microbiol 88 e0168021 (2022)
Reviews citing this publication (16)
- Microbial degradation of organophosphorus compounds. Singh BK, Walker A. FEMS Microbiol. Rev. 30 428-471 (2006)
- Bacterial detoxification of organophosphate nerve agents. Raushel FM. Curr. Opin. Microbiol. 5 288-295 (2002)
- Zinc hydrolases: the mechanisms of zinc-dependent deacetylases. Hernick M, Fierke CA. Arch. Biochem. Biophys. 433 71-84 (2005)
- Catalytic mechanisms for phosphotriesterases. Bigley AN, Raushel FM. Biochim. Biophys. Acta 1834 443-453 (2013)
- Hydrolysis of organophosphorus compounds by microbial enzymes. Theriot CM, Grunden AM. Appl. Microbiol. Biotechnol. 89 35-43 (2011)
- Efficient, crosswise catalytic promiscuity among enzymes that catalyze phosphoryl transfer. Mohamed MF, Hollfelder F. Biochim. Biophys. Acta 1834 417-424 (2013)
- Enzymes fight chemical weapons. Prokop Z, Oplustil F, DeFrank J, Damborský J. Biotechnol J 1 1370-1380 (2006)
- Cadmium-zinc exchange and their binary relationship in the structure of Zn-related proteins: a mini review. Tang L, Qiu R, Tang Y, Wang S. Metallomics 6 1313-1323 (2014)
- Polyhydroyxalkanoate synthase fusions as a strategy for oriented enzyme immobilisation. Hooks DO, Venning-Slater M, Du J, Rehm BH. Molecules 19 8629-8643 (2014)
- Multiple advantages of capillary zone electrophoresis for exploring protein conformational stability. Rochu D, Masson P. Electrophoresis 23 189-202 (2002)
- A comparison of organophosphate degradation genes and bioremediation applications. Iyer R, Iken B, Damania A. Environ Microbiol Rep 5 787-798 (2013)
- Use of magnetic circular dichroism to study dinuclear metallohydrolases and the corresponding biomimetics. Larrabee JA, Schenk G, Mitić N, Riley MJ. Eur. Biophys. J. 44 393-415 (2015)
- Structures and metal-binding properties of Helicobacter pylori neutrophil-activating protein with a di-nuclear ferroxidase center. Yokoyama H, Fujii S. Biomolecules 4 600-615 (2014)
- Environmental Occurrence, Toxicity Concerns, and Degradation of Diazinon Using a Microbial System. Wu X, Li J, Zhou Z, Lin Z, Pang S, Bhatt P, Mishra S, Chen S. Front Microbiol 12 717286 (2021)
- Overview of a bioremediation tool: organophosphorus hydrolase and its significant application in the food, environmental, and therapy fields. Zhao S, Xu W, Zhang W, Wu H, Guang C, Mu W. Appl Microbiol Biotechnol 105 8241-8253 (2021)
- Pesticide Use and Degradation Strategies: Food Safety, Challenges and Perspectives. Leskovac A, Petrović S. Foods 12 2709 (2023)
Articles citing this publication (76)
- Dali server update. Holm L, Laakso LM. Nucleic Acids Res. 44 W351-5 (2016)
- Structural basis for natural lactonase and promiscuous phosphotriesterase activities. Elias M, Dupuy J, Merone L, Mandrich L, Porzio E, Moniot S, Rochu D, Lecomte C, Rossi M, Masson P, Manco G, Chabriere E. J. Mol. Biol. 379 1017-1028 (2008)
- Evolution of an organophosphate-degrading enzyme: a comparison of natural and directed evolution. Yang H, Carr PD, McLoughlin SY, Liu JW, Horne I, Qiu X, Jeffries CM, Russell RJ, Oakeshott JG, Ollis DL. Protein Eng. 16 135-145 (2003)
- A thermostable phosphotriesterase from the archaeon Sulfolobus solfataricus: cloning, overexpression and properties. Merone L, Mandrich L, Rossi M, Manco G. Extremophiles 9 297-305 (2005)
- HotSpot Wizard: a web server for identification of hot spots in protein engineering. Pavelka A, Chovancova E, Damborsky J. Nucleic Acids Res. 37 W376-83 (2009)
- Crystal structure of methyl parathion hydrolase from Pseudomonas sp. WBC-3. Dong YJ, Bartlam M, Sun L, Zhou YF, Zhang ZP, Zhang CG, Rao Z, Zhang XE. J. Mol. Biol. 353 655-663 (2005)
- Automated Structure- and Sequence-Based Design of Proteins for High Bacterial Expression and Stability. Goldenzweig A, Goldsmith M, Hill SE, Gertman O, Laurino P, Ashani Y, Dym O, Unger T, Albeck S, Prilusky J, Lieberman RL, Aharoni A, Silman I, Sussman JL, Tawfik DS, Fleishman SJ. Mol. Cell 63 337-346 (2016)
- X-ray structure of a dihydropyrimidinase from Thermus sp. at 1.3 A resolution. Abendroth J, Niefind K, Schomburg D. J. Mol. Biol. 320 143-156 (2002)
- Anomalous scattering analysis of Agrobacterium radiobacter phosphotriesterase: the prominent role of iron in the heterobinuclear active site. Jackson CJ, Carr PD, Kim HK, Liu JW, Herrald P, Mitić N, Schenk G, Smith CA, Ollis DL. Biochem. J. 397 501-508 (2006)
- Characterization of functionalized nanoporous supports for protein confinement. Lei C, Shin Y, Magnuson JK, Fryxell G, Lasure LL, Elliott DC, Liu J, Ackerman EJ. Nanotechnology 17 5531-5538 (2006)
- Coordination number of zinc ions in the phosphotriesterase active site by molecular dynamics and quantum mechanics. Koca J, Zhan CG, Rittenhouse RC, Ornstein RL. J Comput Chem 24 368-378 (2003)
- Stereoselective hydrolysis of organophosphate nerve agents by the bacterial phosphotriesterase. Tsai PC, Bigley A, Li Y, Ghanem E, Cadieux CL, Kasten SA, Reeves TE, Cerasoli DM, Raushel FM. Biochemistry 49 7978-7987 (2010)
- The evolution of new enzyme function: lessons from xenobiotic metabolizing bacteria versus insecticide-resistant insects. Russell RJ, Scott C, Jackson CJ, Pandey R, Pandey G, Taylor MC, Coppin CW, Liu JW, Oakeshott JG. Evol Appl 4 225-248 (2011)
- The organophosphate-degrading enzyme from Agrobacterium radiobacter displays mechanistic flexibility for catalysis. Ely F, Hadler KS, Gahan LR, Guddat LW, Ollis DL, Schenk G. Biochem. J. 432 565-573 (2010)
- Metabolic engineering of Pseudomonas putida for the utilization of parathion as a carbon and energy source. Walker AW, Keasling JD. Biotechnol. Bioeng. 78 715-721 (2002)
- Catalytic mechanism and three-dimensional structure of adenine deaminase. Kamat SS, Bagaria A, Kumaran D, Holmes-Hampton GP, Fan H, Sali A, Sauder JM, Burley SK, Lindahl PA, Swaminathan S, Raushel FM. Biochemistry 50 1917-1927 (2011)
- Contribution of the active-site metal cation to the catalytic activity and to the conformational stability of phosphotriesterase: temperature- and pH-dependence. Rochu D, Viguié N, Renault F, Crouzier D, Froment MT, Masson P. Biochem. J. 380 627-633 (2004)
- Crystal structures of Wzb of Escherichia coli and CpsB of Streptococcus pneumoniae, representatives of two families of tyrosine phosphatases that regulate capsule assembly. Hagelueken G, Huang H, Mainprize IL, Whitfield C, Naismith JH. J. Mol. Biol. 392 678-688 (2009)
- Electronic and geometric structures of the organophosphate-degrading enzyme from Agrobacterium radiobacter (OpdA). Ely F, Hadler KS, Mitić N, Gahan LR, Ollis DL, Plugis NM, Russo MT, Larrabee JA, Schenk G. J. Biol. Inorg. Chem. 16 777-787 (2011)
- Immobilization of organophosphohydrolase OpdA from Agrobacterium radiobacter by overproduction at the surface of polyester inclusions inside engineered Escherichia coli. Blatchford PA, Scott C, French N, Rehm BH. Biotechnol. Bioeng. 109 1101-1108 (2012)
- The effects of substrate orientation on the mechanism of a phosphotriesterase. Jackson CJ, Liu JW, Coote ML, Ollis DL. Org. Biomol. Chem. 3 4343-4350 (2005)
- Structural and mutational studies of organophosphorus hydrolase reveal a cryptic and functional allosteric-binding site. Grimsley JK, Calamini B, Wild JR, Mesecar AD. Arch. Biochem. Biophys. 442 169-179 (2005)
- Enhanced refoldability and thermoactivity of fluorinated phosphotriesterase. Baker PJ, Montclare JK. Chembiochem 12 1845-1848 (2011)
- Enzyme specific activity in functionalized nanoporous supports. Lei C, Soares TA, Shin Y, Liu J, Ackerman EJ. Nanotechnology 19 125102 (2008)
- Mechanistic studies of La3+- and Zn2+-catalyzed methanolysis of aryl phosphate and phosphorothioate triesters. Development of artificial phosphotriesterase systems. Liu T, Neverov AA, Tsang JS, Brown RS. Org. Biomol. Chem. 3 1525-1533 (2005)
- Minimal structural rearrangement of the cytoplasmic pore during activation of the 5-HT3A receptor. Panicker S, Cruz H, Arrabit C, Suen KF, Slesinger PA. J. Biol. Chem. 279 28149-28158 (2004)
- Study of the mechanism of Flavobacterium sp. for hydrolyzing organophosphate pesticides. Ortiz-Hernández ML, Quintero-Ramírez R, Nava-Ocampo AA, Bello-Ramírez AM. Fundam Clin Pharmacol 17 717-723 (2003)
- The crystal structure of a novel, latent dihydroorotase from Aquifex aeolicus at 1.7A resolution. Martin PD, Purcarea C, Zhang P, Vaishnav A, Sadecki S, Guy-Evans HI, Evans DR, Edwards BF. J. Mol. Biol. 348 535-547 (2005)
- Molecular structure of D-hydantoinase from Bacillus sp. AR9: evidence for mercury inhibition. Radha Kishan KV, Vohra RM, Ganesan K, Agrawal V, Sharma VM, Sharma R. J. Mol. Biol. 347 95-105 (2005)
- Comparative investigation of the reaction mechanisms of the organophosphate-degrading phosphotriesterases from Agrobacterium radiobacter (OpdA) and Pseudomonas diminuta (OPH). Pedroso MM, Ely F, Mitić N, Carpenter MC, Gahan LR, Wilcox DE, Larrabee JL, Ollis DL, Schenk G. J. Biol. Inorg. Chem. 19 1263-1275 (2014)
- Unsymmetrical dizinc complexes as models for the active sites of phosphohydrolases. Jarenmark M, Csapó E, Singh J, Wöckel S, Farkas E, Meyer F, Haukka M, Nordlander E. Dalton Trans 39 8183-8194 (2010)
- Effect of Zn...Zn separation on the hydrolytic activity of model dizinc phosphodiesterases. Bauer-Siebenlist B, Meyer F, Farkas E, Vidovic D, Dechert S. Chemistry 11 4349-4360 (2005)
- Hydrolysis of organophosphate esters: phosphotriesterase activity of metallo-beta-lactamase and its functional mimics. Tamilselvi A, Mugesh G. Chemistry 16 8878-8886 (2010)
- Probing mechanisms for enzymatic activity enhancement of organophosphorus hydrolase in functionalized mesoporous silica. Chen B, Lei C, Shin Y, Liu J. Biochem. Biophys. Res. Commun. 390 1177-1181 (2009)
- The role of Zn-OR and Zn-OH nucleophiles and the influence of para-substituents in the reactions of binuclear phosphatase mimetics. Daumann LJ, Dalle KE, Schenk G, McGeary RP, Bernhardt PV, Ollis DL, Gahan LR. Dalton Trans 41 1695-1708 (2012)
- Hyperthermophilic phosphotriesterases/lactonases for the environment and human health. Mandrich L, Merone L, Manco G. Environ Technol 31 1115-1127 (2010)
- The crystal structure of human isopentenyl diphosphate isomerase at 1.7 A resolution reveals its catalytic mechanism in isoprenoid biosynthesis. Zheng W, Sun F, Bartlam M, Li X, Li R, Rao Z. J. Mol. Biol. 366 1447-1458 (2007)
- Biodegradation of organophosphate pesticide quinalphos by Ochrobactrum sp. strain HZM. Talwar MP, Mulla SI, Ninnekar HZ. J. Appl. Microbiol. 117 1283-1292 (2014)
- Mutation of outer-shell residues modulates metal ion co-ordination strength in a metalloenzyme. Foo JL, Jackson CJ, Carr PD, Kim HK, Schenk G, Gahan LR, Ollis DL. Biochem. J. 429 313-321 (2010)
- Catalytic efficiencies of directly evolved phosphotriesterase variants with structurally different organophosphorus compounds in vitro. Goldsmith M, Eckstein S, Ashani Y, Greisen P, Leader H, Sussman JL, Aggarwal N, Ovchinnikov S, Tawfik DS, Baker D, Thiermann H, Worek F. Arch. Toxicol. 90 2711-2724 (2016)
- Magnetic circular dichroism study of a dicobalt(II) complex with mixed 5- and 6-coordination: a spectroscopic model for dicobalt(II) hydrolases. Larrabee JA, Johnson WR, Volwiler AS. Inorg Chem 48 8822-8829 (2009)
- Molecular dynamics simulations of the detoxification of paraoxon catalyzed by phosphotriesterase. Zhang X, Wu R, Song L, Lin Y, Lin M, Cao Z, Wu W, Mo Y. J Comput Chem 30 2388-2401 (2009)
- Update on biochemical properties of recombinant Pseudomonas diminuta phosphotriesterase. Carletti E, Jacquamet L, Loiodice M, Rochu D, Masson P, Nachon F. J Enzyme Inhib Med Chem 24 1045-1055 (2009)
- Functional significance of Glu-77 and Tyr-137 within the active site of isoaspartyl dipeptidase. Martí-Arbona R, Thoden JB, Holden HM, Raushel FM. Bioorg. Chem. 33 448-458 (2005)
- Haloalkylphosphorus hydrolases purified from Sphingomonas sp. strain TDK1 and Sphingobium sp. strain TCM1. Abe K, Yoshida S, Suzuki Y, Mori J, Doi Y, Takahashi S, Kera Y. Appl. Environ. Microbiol. 80 5866-5873 (2014)
- Mn2+ modulates the kinetic properties of an archaeal member of the PLL family. Porzio E, Di Gennaro S, Palma A, Manco G. Chem. Biol. Interact. 203 251-256 (2013)
- The structure of cardiac troponin C regulatory domain with bound Cd2+ reveals a closed conformation and unique ion coordination. Zhang XL, Tibbits GF, Paetzel M. Acta Crystallogr. D Biol. Crystallogr. 69 722-734 (2013)
- Improved stability and half-life of fluorinated phosphotriesterase using Rosetta. Yang CY, Renfrew PD, Olsen AJ, Zhang M, Yuvienco C, Bonneau R, Montclare JK. Chembiochem 15 1761-1764 (2014)
- Multiple mechanisms contribute to lateral transfer of an organophosphate degradation (opd) island in Sphingobium fuliginis ATCC 27551. Pandeeti EV, Longkumer T, Chakka D, Muthyala VR, Parthasarathy S, Madugundu AK, Ghanta S, Medipally SR, Pantula SC, Yekkala H, Siddavattam D. G3 (Bethesda) 2 1541-1554 (2012)
- Structural-based mutational analysis of D-aminoacylase from Alcaligenes faecalis DA1. Hsu CS, Lai WL, Chang WW, Liaw SH, Tsai YC. Protein Sci. 11 2545-2550 (2002)
- Substitution of the catalytic metal and protein PEGylation enhances activity and stability of bacterial phosphotriesterase. Perezgasga L, Sánchez-Sánchez L, Aguila S, Vazquez-Duhalt R. Appl. Biochem. Biotechnol. 166 1236-1247 (2012)
- Cadmium(II) complexes of the glycerophosphodiester-degrading enzyme GpdQ and a biomimetic N,O ligand. Mirams RE, Smith SJ, Hadler KS, Ollis DL, Schenk G, Gahan LR. J. Biol. Inorg. Chem. 13 1065-1072 (2008)
- Crystal structure of Helicobacter pylori neutrophil-activating protein with a di-nuclear ferroxidase center in a zinc or cadmium-bound form. Yokoyama H, Tsuruta O, Akao N, Fujii S. Biochem. Biophys. Res. Commun. 422 745-750 (2012)
- Function discovery and structural characterization of a methylphosphonate esterase. Xiang DF, Patskovsky Y, Nemmara VV, Toro R, Almo SC, Raushel FM. Biochemistry 54 2919-2930 (2015)
- Organophosphate Hydrolase Is a Lipoprotein and Interacts with Pi-specific Transport System to Facilitate Growth of Brevundimonas diminuta Using OP Insecticide as Source of Phosphate. Parthasarathy S, Parapatla H, Nandavaram A, Palmer T, Siddavattam D. J. Biol. Chem. 291 7774-7785 (2016)
- Phosphotriesterase variants with high methylphosphonatase activity and strong negative trade-off against phosphotriesters. Briseño-Roa L, Timperley CM, Griffiths AD, Fersht AR. Protein Eng. Des. Sel. 24 151-159 (2011)
- The Streptococcus thermophilus protein Wzh functions as a phosphotyrosine phosphatase. Cefalo AD, Broadbent JR, Welker DL. Can. J. Microbiol. 59 391-398 (2013)
- Triesterase and promiscuous diesterase activities of a di-Co(II)-containing organophosphate degrading enzyme reaction mechanisms. Alberto ME, Pinto G, Russo N, Toscano M. Chemistry 21 3736-3745 (2015)
- A structural and catalytic model for zinc phosphoesterases. Buchholz RR, Etienne ME, Dorgelo A, Mirams RE, Smith SJ, Chow SY, Hanton LR, Jameson GB, Schenk G, Gahan LR. Dalton Trans 6045-6054 (2008)
- Assembly of the active center of organophosphorus hydrolase in metal-organic frameworks via rational combination of functional ligands. Xia M, Zhuo C, Ma X, Zhang X, Sun H, Zhai Q, Zhang Y. Chem. Commun. (Camb.) 53 11302-11305 (2017)
- Assembly of unusual Zn-cluster compounds based on pyridinealcohol platforms. Anselmo D, Escudero-Adán EC, Benet-Buchholz J, Kleij AW. Dalton Trans 7368-7373 (2009)
- Evidence for unimolecular CO2 elimination in C-N bond metathesis reactions of basic carbamatozinc complexes Zn4O(O2CAm)6(Am=N-diethylamino, N-piperidyl, N-pyrrolidyl). McCowan CS, Caudle MT. Dalton Trans 238-246 (2005)
- Exploring stereochemical specificity of phosphotriesterase by MM-PBSA and MM-GBSA calculation and steered molecular dynamics simulation. Zhu J, Li X, Zhang S, Ye H, Zhao H, Jin H, Han W. J. Biomol. Struct. Dyn. 35 3140-3151 (2017)
- Molecularly Imprinted Porous Aromatic Frameworks Serving as Porous Artificial Enzymes. Yuan Y, Yang Y, Faheem M, Zou X, Ma X, Wang Z, Meng Q, Wang L, Zhao S, Zhu G. Adv. Mater. Weinheim 30 e1800069 (2018)
- Polymetallic complexes in microemulsions for the hydrolysis of 4-nitrophenyl phosphate: a bio-mimetic model for decontamination of organophosphates in the environment. Tafesse F, Deppa NC. Ecotoxicol. Environ. Saf. 58 260-266 (2004)
- Steady-State Kinetics of Enzyme-Catalyzed Hydrolysis of Echothiophate, a P-S Bonded Organophosphorus as Monitored by Spectrofluorimetry. Zueva IV, Lushchekina SV, Daudé D, Chabrière E, Masson P. Molecules 25 (2020)
- Sterically variable dizinc complexes bearing bis(iminopyridyl)phenolate ligands: synthesis, structures and reactivity studies. Champouret YD, Nodes WJ, Scrimshire JA, Singh K, Solan GA, Young I. Dalton Trans 4565-4575 (2007)
- Synthesis and reactivity of a C3-symmetric trinuclear zinc(II) hydroxide catalyst efficient at phosphate diester transesterification. Mitra R, Peters MW, Scott MJ. Dalton Trans 3924-3935 (2007)
- Catalytic and structural effects of flexible loop deletion in organophosphorus hydrolase enzyme: A thermostability improvement mechanism. Farnoosh G, Khajeh K, Mohammadi M, Hassanpour K, Latifi AM, Aghamollaei H. J Biosci 45 (2020)
- Efficient single-strand cleavage of DNA mediated by a MnIIIMnIV-based artificial nuclease. Qian J, Yu S, Wang W, Wang L, Tian J, Yan S. Dalton Trans 43 2646-2655 (2014)
- Impact of phenylalanines outside the dimer interface on phosphotriesterase stability and function. Olsen AJ, Halvorsen LA, Yang CY, Barak Ventura R, Yin L, Renfrew PD, Bonneau R, Montclare JK. Mol Biosyst 13 2092-2106 (2017)
- Improving the specificity of organophosphorus hydrolase to acephate by mutagenesis at its binding site: a computational study. Badakhshan R, Mohammadi M, Farnoosh G. J Mol Model 27 164 (2021)
- Mechanical Bond Approach to Introducing Self-Adaptive Active Sites in Covalent Organic Frameworks for Zinc-Catalyzed Organophosphorus Degradation. Ruan X, Yang Y, Liu W, Ma X, Zhang C, Meng Q, Wang Z, Cui F, Feng J, Cai F, Yuan Y, Zhu G. ACS Cent Sci 7 1698-1706 (2021)
- Substrate Profile of the Phosphotriesterase Homology Protein from Escherichia coli. Nemmara VV, Xiang DF, Fedorov AA, Fedorov EV, Bonanno JB, Almo SC, Raushel FM. Biochemistry 57 6219-6227 (2018)
- The impact of molecular variants, crystallization conditions and the space group on ligand-protein complexes: a case study on bacterial phosphotriesterase. Dym O, Aggarwal N, Ashani Y, Leader H, Albeck S, Unger T, Hamer-Rogotner S, Silman I, Tawfik DS, Sussman JL. Acta Crystallogr D Struct Biol 79 992-1009 (2023)
- Transition State Analysis of the Reaction Catalyzed by the Phosphotriesterase from Sphingobium sp. TCM1. Bigley AN, Xiang DF, Narindoshvili T, Burgert CW, Hengge AC, Raushel FM. Biochemistry 58 1246-1259 (2019)