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nterpretation of these observations is the binding of HI-6 in a small fraction of an enzyme with an aged sarin as shown in the HI6Nsarinaged-mAChE crystal structure described below. This interpretation is supported by the observation of a negative electron density close to the phosphorus atom of the conjugate that is likely associated with a small fraction of an aged enzyme. The loss of the isopropyl moiety in a small fraction of the aged enzyme provides space and negative charge to accommodate the cationic pyridinium-oxime ring in the vicinity of Trp86 and the aged sarin, as supported by the superposition of HI-6Nsarinnonaged-mAChE to HI-6NsarinagedmAChE The aging half-life for sarin in mAChE is presumably close to that of sarin in 18316589 hAChE , and we found that the half-life of sarinnonagedmAChE in the presence of HI-6 is,4.6 minutes. These half-life values and the seven datasets with the HI-6-exposure times less than 10 minutes explain why we observed only the change of the electron density for the phosphorus atom in the sarinnonagedmAChE in time, adding further support to the interpretation of the residual electron density as the binding of HI-6 in a small fraction of the sarinaged-mAChE. Crystal structure of HI-6Nsarinaged-mAChE Structure of HI-6NSarin-AChE The final model of HI-6Nsarinaged-mAChE contains well-defined atoms, namely, the aged sarin and the HI-6 oxime-pyridinium parallel to Trp86. The carboxyamino-pyridinium ring of HI-6 bound above the indole ring of Trp86, HI-6 molecules bound alternatively, and the side chain of Trp286 were omitted from the final model. The occupancy of the oxime-pyridinium ring is set to 0.7 and the occupancies of the apo-like and HI-6-accommodating side-chain conformations of Tyr337 are set to 0.3 and 0.7, respectively in the final model. Crystal structure of K027NmAChE To investigate the identity of the electron density feature at the Phe295 site in HI-6Nsarinnonaged-mAChE, we determined the 2.6-A crystal structure of a non-phosphonylated mAChE in complex with K027, a close analogue of HI-6 that is less effective in reactivating the sarinnonaged-hAChE than HI-6. The key structural difference between HI-6 and K027 is that the oxime moiety is substituted at the 2-position of the pyridinium ring of HI6 and at the 4-position for K027. The para substitution prevents Structure of HI-6NSarin-AChE the presence of the oxime group at the Phe295 site when K027 binds at the mAChE active site in a similar fashion as HI-6. Indeed, similar to the binding of HI-6 in sarinnonaged-mAChE, in the K027NmAChE complex, the carboxyaminopyridinium ring of K027 is sandwiched by Tyr124 and Trp286, and the 4-oxime-pyridinium ring enters the catalytic site where it is found parallel to Tyr337 with its oxime oxygen forming a 2.9-A hydrogen bond to the main-chain oxygen of His447 and a 3.1-A hydrogen bond to a water buy AG-1478 molecule. Interestingly, in contrast to HI-6Nsarinnonaged-mAChE, Asp74 adopts the 23713790 side-chain 7 Structure of HI-6NSarin-AChE conformation found in the apo mAChE and two low-occupancy water molecules seem to bridge the interaction between K027 and Asp74. There is also a high-density feature at the Phe295 site in the K027NmAChE complex. Because K027 was added to the crystals in the K027NHBr salt form, and because the 4-substituted oxime group cannot access the Phe295 site, the spherical feature was initially modelled as a bromide, resulting in good correlation to the crystallographic data. This interpretation is further

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Author: calcimimeticagent