[The effect of ionic strength on reversible inhibition of catalytic activity of acetylcholinesterase by thione phosphonates]. / Vliianie ionnoi sily na obratimoe tormozhenie kataliticheskoi aktivnosti atsetilkholinésterazy tionfosfonatami.

The effect of ionic strength was used to analyze the mechanism of reversible acetylcholinesterase inhibition by three alkoxymethylthionphosphonates. The most considerable realization of the hydrophobic interaction with the surroundings of the enzyme esteratic site was marked for n-butyl derivative (compound I). The replacement of piperidine by morpholine (compound II) resulted in a decrease of the anticholinesterase activity by an order due to enhancement of the inhibitor hydrophilicity. An increase of MgCl2 concentration promotes an enhancement of the uncompetitive component contribution for compound III contrast to compound II. Hydrophobicity of the phosphoryl part of the compound I molecule is balanced under hydrophobic interaction of the heterocyclic "cationic head" with the enzyme anionic site. The break of this equilibrium intensifies the allosteric regulation, on the one hand, and lowers the inhibitor efficiency, on the other hand.

[A comparative study of the cholinesterase and carboxylesterase sensitivities of mammals and arthropods to new phenyl and glycidyl esters of dialkyl thiophosphoric acid]. / Sravnitel'noe issledovanie chuvstvitel'nosti kholinesteraz i karboksilésteraz nekotorykh mlekopitaiushchikh i chlenistonogikh k novym fenilovym i glitsidilovym éfiram dialkiltiofosfornoi kisloty.

The antienzymic activities of 14 organophosphorous compounds, the derivatives of dialkyl thiophosphoric acid, towards the acetylcholinesterase (AChE), butyrylcholinesterase (BuChE) and carboxylesterase (CE) from the spring grain aphid and mammals were investigated. The dependence of inhibitory activity of the compounds on their alkyl radical length was shown to be different for the AchE from the aphid and man. Some less pronounced differences in this dependence were revealed between the BuChEs from the aphid and horse as well as between the CEs from the aphid, mouse and red spider mite. The data give evidence of a distinction in structure of the active surfaces of the enzymes from the aphid and mammals. Some peculiar properties of the aphid cholinesterases are discussed taking account of the results of the present and previous papers.