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Anomalous biochemical responses in tests of the delayed neuropathic potential of methamidophos (O,S-dimethyl phosphorothioamidate), its resolved isomers and of some higher O-alkyl homologues (1991)

Johnson, M. K. ; Vilanova, E. ; Read, D. J.

Springer

Archives of toxicology 65 (1991), S. 618-624

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ISSN: 1432-0738

Keywords: Methamidophos ; Pesticide ; Phosphoramidates ; Organophosphorus ; Neuropathy target esterase (NTE) ; Delayed neuropathy

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The interaction with neural neuropathy target esterase (NTE) and acetylcholinesterase (AChE) in vivo of methamidophos (O,S-dimethyl phosphorothioamidate), its resolved stereoisomers and five higher O-alkyl homologues has been examined along with the ability of these compounds to cause organophosphorus-induced delayed polyneuropathy (OPIDP) in adult hens. For the lower homologues AChE was more sensitive than NTE and it was impossible to achieve high inhibition of NTE in vivo without both prophylaxis and therapy against acute anticholinesterase effects; for then-hexyl homologue high inhibition of NTE could be achieved without obvious anticholinesterase effects and spontaneous reactivation of inhibited AChE was seen as in vitro. The maximum tolerated dose ofl(−) methamidophos or of the ethyl oriso-propyl homologues did not inhibit NTE more than 60%, and surviving birds did not develop OPIDP. Then-propyl,n-butyl andn-hexyl compounds caused typical OPIDP at doses causing a peak of 70–95% inhibition of NTE in brain, spinal cord and sciatic nerve soon after dosing. Racemic methamidophos caused unusually mild OPIDP associated with very high inhibition of NTE at doses estimated to be 〉8 times the unprotected LD50 and thed-(+) isomer caused OPIDP at about 5−7× LD50. Clinical effects correlated with histopathology in 19 out of 20 examined birds. In contrast to results of many previous studies with organophosphates and phosphonates, all these cases of OPIDP were associated with formation of inhibited NTE which could be reactivated ex vivo by treatment of autopsy tissue with KF solution. It is not clear whether “aging” of inhibited NTE had occurred but with less associated stabilisation of the enzyme-phosphorus bond or whether, even without aging, the unusual N-unsubstituted phosphoramidate caused sufficient disturbance in or near the NTE target to initiate the same degenerative process as that caused typically by generation of “aged” organophosphorylated NTE.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02098026

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Resonance Raman as a direct probe for the catalytic mechanism of molybdenum oxotransferases (1997)

Johnson, M. K. ; Garton, Shannon D. ; Oku, Hiroyuki

Springer

JBIC 2 (1997), S. 797-803

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ISSN: 1432-1327

Keywords: Key words Molybdenum oxotransferase ; Resonance Raman ; Catalytic mechanism ; 18O labeling

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract Recent studies of human sulfite oxidase and Rhodobacter sphaeroides DMSO reductase have demonstrated the ability of resonance Raman to probe in detail the coordination environment of the Mo active sites in oxotransferases via Mo=O, Mo-S(dithiolene), Mo-S(Cys) or Mo-O(Ser), dithiolene chelate ring and bound substrate vibrations. Furthermore, the ability to monitor the catalytically exchangeable oxo group via isotopic labeling affords direct mechanistic information and structures for the catalytically competent Mo(IV) and Mo(VI) species. The results clearly demonstrate that sulfite oxidase cycles between cis–di-oxo-Mo(VI) and mono-oxo-Mo(IV) states during catalytic turnover, whereas DMSO reductase cycles between mono-oxo-Mo(VI) and des-oxo-Mo(IV) states. In the case of DMSO reductase, 18O-labeling experiments have provided the first direct evidence for an oxygen atom transfer mechanism involving an Mo=O species. Of particular importance is that the active-site structures and detailed mechanism of DMSO reductase in solution, as determined by resonance Raman spectroscopy, are quite different to those reported or deduced in the three X-ray crystallographic studies of DMSO reductases from Rhodobacter species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s007750050198

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Spectroscopic studies of the tungsten-containing formaldehyde ferredoxin oxidoreductase from the hyperthermophilic archaeon Thermococcus litoralis (2000)

Dhawan, Ish K. ; Roy, Roopali ; Koehler, Brian P. ; [et al.]

Springer

JBIC 5 (2000), S. 313-327

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ISSN: 1432-1327

Keywords: Tungsten ; Aldehyde ferredoxin oxidoreductase ; Electron paramagnetic resonance ; Magnetic circular dichroism ; Iron-sulfur cluster

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Thermococcus litoralis (Tl) have been investigated by using the combination of EPR and variable-temperature magnetic circular dichroism (VTMCD) spectroscopies. The results reveal a [Fe4S4]2+,+ cluster (E m=−368 mV) that undergoes redox cycling between an oxidized form with an S=0 ground state and a reduced form that exists as a pH- and medium-dependent mixture of S=3/2 (g=5.4; E/D=0.33) and S=1/2 (g=2.03, 1.93, 1.86) ground states, with the former dominating in the presence of 50% (v/v) glycerol. Three distinct types of W(V) EPR signals have been observed during dye-mediated redox titration of as-isolated Tl FOR. The initial resonance observed upon oxidation, termed the “low-potential” W(V) species (g=1.977, 1.898, 1.843), corresponds to approximately 25–30% of the total W and undergoes redox cycling between W(IV)/W(V) and W(V)/W(VI) states at physiologically relevant potentials (E m=−335 and −280 mV, respectively). At higher potentials a minor “mid-potential” W(V) species, g=1.983, 1.956, 1.932, accounting for less than 5% of the total W, appears with a midpoint potential of −34 mV and persists up to at least +300 mV. At potentials above 0 mV, a major “high-potential” W(V) signal, g=1.981, 1.956, 1.883, accounting for 30–40% of the total W, appears at a midpoint potential of +184 mV. As-isolated samples of Tl FOR were found to undergo an approximately 8-fold enhancement in activity on incubation with excess Na2S under reducing conditions and the sulfide-activated Tl FOR was partially inactivated by cyanide. The spectroscopic and redox properties of the sulfide-activated Tl FOR are quite distinct from those of the as-isolated enzyme, with loss of the low-potential species and changes in both the mid-potential W(V) species (g=1.981, 1.950, 1.931; E m=−265 mV) and high-potential W(V) species (g=1.981, 1.952, 1.895; E m=+65 mV). Taken together, the W(V) species in sulfide-activated samples of Tl FOR maximally account for only 15% of the total W. Both types of high-potential W(V) species were lost upon incubation with cyanide and the sulfide-activated high-potential species is converted into the as-isolated high-potential species upon exposure to air. Structural models are proposed for each of the observed W(V) species and both types of mid-potential and high-potential species are proposed to be artifacts of ligand-based oxidation of W(VI) species. A W(VI) species with terminal sulfido or thiol ligands is proposed to be responsible for the catalytic activity in sulfide-activated samples of Tl FOR.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00010660

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