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| Q34595987 | A serine/threonine phosphatase encoded by MG_207 of Mycoplasma genitalium is critical for its virulence |
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| Q93890881 | Catalysis and regulation |
| Q58693747 | Cold Acclimation of Trogoderma granarium Everts Is Tightly Linked to Regulation of Enzyme Activity, Energy Content, and Ion Concentration |
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| Q53150309 | Effects of microcystins on phosphorylase-a binding to phosphatase-2A: kinetic analysis by surface plasmon resonance biosensor. |
| Q44451344 | Enzyme kinetic characterization of protein tyrosine phosphatases |
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| Q33616647 | Kinetics and mechanism of protein tyrosine phosphatase 1B inactivation by acrolein |
| Q73731744 | Mechanism of inhibition of protein-tyrosine phosphatases by disodium aurothiomalate |
| Q40146507 | Molecular dynamics simulations of protein-tyrosine phosphatase 1B. I. ligand-induced changes in the protein motions |
| Q40162561 | Molecular dynamics simulations of protein-tyrosine phosphatase 1B. II. substrate-enzyme interactions and dynamics |
| Q42002782 | NMR structure of the enzyme GatB of the galactitol-specific phosphoenolpyruvate-dependent phosphotransferase system and its interaction with GatA |
| Q77988273 | Nitric oxide and superoxide inhibit platelet-derived growth factor receptor phosphotyrosine phosphatases |
| Q27641431 | Oxidation state of the active-site cysteine in protein tyrosine phosphatase 1B |
| Q24322705 | P-TEN, the tumor suppressor from human chromosome 10q23, is a dual-specificity phosphatase |
| Q26769979 | Post-Translational Modifications of Cardiac Mitochondrial Proteins in Cardiovascular Disease: Not Lost in Translation |
| Q35540282 | Protein Phosphatases in Plants |
| Q35571964 | Protein topology determines cysteine oxidation fate: the case of sulfenyl amide formation among protein families |
| Q77946535 | Protein tyrosine phosphatases: counting the trees in the forest |
| Q40918767 | Protein-drug complexes important for immunoregulation and organ transplantation |
| Q33616624 | Redox regulation of protein tyrosine phosphatase 1B by peroxymonophosphate (=O3POOH) |
| Q36155472 | Scaffold Role of DUSP22 in ASK1-MKK7-JNK Signaling Pathway |
| Q77968270 | Signal transduction in the vomeronasal organ of garter snakes: ligand-receptor binding-mediated protein phosphorylation |
| Q41135422 | Signal-transducing protein phosphorylation cascades mediated by Ras/Rho proteins in the mammalian cell: the potential for multiplex signalling |
| Q77634522 | Structure-based design and synthesis of small molecule protein-tyrosine phosphatase 1B inhibitors |
| Q42135710 | Structure-based thermodynamic analysis of the dissociation of protein phosphatase-1 catalytic subunit and microcystin-LR docked complexes |
| Q33678696 | Structure/function studies on the bacterial carbohydrate transporters, enzymes II, of the phosphoenolpyruvate-dependent phosphotransferase system |
| Q38920438 | TGFβ1 rapidly activates Src through a non-canonical redox signaling mechanism. |
| Q24291860 | TYK2 and JAK2 are substrates of protein-tyrosine phosphatase 1B |
| Q36990410 | The chemistry of cell signaling by reactive oxygen and nitrogen species and 4-hydroxynonenal. |
| Q27734769 | The structure of an energy-coupling protein from bacteria, IIBcellobiose, reveals similarity to eukaryotic protein tyrosine phosphatases |
| Q27633455 | The structure of apo protein-tyrosine phosphatase 1B C215S mutant: More than just an S → O change |
| Q51776170 | Theoretical studies on the mechanism of activation of phosphoprotein phosphatases and purple acid phosphatases suggest an evolutionary strategy to survive in acidic environments. |
| Q44934117 | Theoretical studies on the reaction mechanism of PP1 and the effects of different oxidation states of the Mn-Mn center on the mechanism |
| Q38137411 | What pathogens have taught us about posttranslational modifications |
| Q48016014 | pzl-1 encodes a novel protein phosphatase-Z-like Ser/Thr protein phosphatase in Neurospora crassa. |