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Detection and quantitation of diazinon and chlorpyrifos : a novel GCHu, Xiaoyi 01 January 2002 (has links) (PDF)
An analytical method was developed for detection and quantitation of diazinon and chlorpyrifos, two widely used pesticides in local water pathway. Solid phase extraction combined with GC/MS detection with selected ion monitoring was employed. In establishing calibration curves for GC/MS analysis, it may be impractical to use isotope-labeled analogs as internal standards for all analytes in a complicated matrix. Compounds may have to be used as internal standards which could cause non-linear effects because of different response of analytes and internal standards. A novel sample introduction method, which could eliminate this negative effect of non-linearity, was proposed. Calibration data were acquired using the traditional constant volume injection method, and a new method: constant mass injection of analytes. Calibration curves by the constant mass injection method show a better linearity and y-intercept. The nonlinear effect observed with data obtained in low concentration ranges using the constant volume injection method was eliminated. The effectiveness of these curves by two methods was also tested. Better accuracy was obtained with the constant mass injection method. This constant mass injection of analytes method could be very useful in
quantitative studies of a complicated sample matrix, such as those encountered in the environmental analysis of pesticides, or in the quality control analysis of medical and industrial product. In solid phase extraction, Varian Bondelute SPE C8 cartridge was selected for extraction. With the standard water sample spiked at 500 ng/L for the two analytes, the recovery for diazinon was about 50% and for chlorpyrifos about 60%. With the standard water sample at 1000 ng/L, the recovery for diazinon was about 60% and for chlorpyrifos about 70%. Among three samples from three different sampling sites, diazinon was detected and confirmed. The quantitation of diazinon was done to water sample from the Calaveras River near the Sanguetti Street crossing Stockton, California, with observed concentration 143.2 ng/L.
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The Mechanism by Which Oximes Reactivate Cholinesterases Inhibited by OrganophosphatesBhavaraju, Manikanthan Hari Naga Venkata 14 December 2013 (has links)
The enzymes acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) are inhibited by nerve agents such as sarin and tabun. In general, the inhibited enzymes are reactivated by bisquaternary ammonium compounds (oximes). The binding free energies of the oximes; 2-PAM, MMB-4, HI-6, and obidoxime bound to human AChE (hAChE) and human BChE (hBChE) inhibited by sarin and tabun and also to the uninhibited enzymes were calculated using various computational methods. Using thermodynamic integration, the binding free energies of all the inhibited and uninhibited systems of MMB-4 and obidoxime were evaluated. The standard binding free energies (dA) were more negative than the experimental values due to limitations of the ff99 forcefield. The RMS error of dA for the inhibited systems of MMB-4 was 2.1 kcal/mol, and for obidoxime systems it was 4.8 kcal/mol with respect to the experimental free energies. The binding enthalpies calculated using MM-GBSA and MM-PBSA methods for 2-PAM, MMB-4, HI-6, and obidoxime systems were negative, except for hBChE-sarin-MMB-4 and hBChE-sarin-obidoxime. For all the systems the TdS values calculated using normal mode analysis were equal to or lower in magnitude than their corresponding binding enthalpies. As a result, the estimated free energies were positive for most of the systems. Clearly, the present algorithms cannot effectively estimate the binding entropies for a protein-ligand system. Met81 has commonly shown favorable interactions, and lysine or arginine exhibited unfavorable interactions with the reactivator in all the systems. Second, the interactions between chloropyrifos-oxon (Cpo) and experimentally tested neutral and monopyridinium oximes bound to the Q192 or R192 polymorphs of human paraoxonase1 (hPON1) were studied. The equilibrated Q192 and R192 hPON1 were structurally different than the crystal structure of recombinant PON1. The neutral oximes have shown more favorable interactions with Cpo in Q192 hPON1 + Cpo system compared to R192 hPON1 + Cpo. Whereas the monopyridinium oximes interacted more affectively with Cpo in R192 hPON1 than Q192 hPON1. The relative deprotonation energy of the monopyridinium oxime was lower than the neutral oxime. Hence, the monopyridinium oxime can hydrolyze an organophosphate at a higher rate than a neutral oxime.
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