%0 Book
%T ORGANOPHOSPHORUS NEUROTOXINS
%A Andriyanova, M.S.
%A Aslanli, A.G.
%A Basova, N.E.
%A Bykov, V.I.
%A Varfolomeev, S.D.
%A Gorbunov, K.S.
%A Gorelenkov, V.K.
%A Grigorenko, B.L.
%A Gudkov, D.A.
%A Zavialov, V.V.
%A Zavialova, N.V.
%A Zlobin, A.V.
%A Eremenko, A.V.
%A Eremin, S.A.
%A Ermakova, I.T.
%A Efremenko, E.N.
%A Inozemcev, V.A.
%A Komissarenko, S.A.
%A Kurochkin, I.N.
%A Leontievsky, A.A.
%A Lushchekina, S.V.
%A Lyagin, I.V.
%A Maslova, O.V.
%A Masson, P.I.
%A Mahaeva, G.F.
%A Mahlis, T.A.
%A Medveckiy, I.V.
%A Moralev, S.N.
%A Nelga, I.A.
%A Nechaeva, N.L.
%A Novichkova, D.A.
%A Nemuchin, A.V.
%A Rozengart, E.V.
%A Sviridov, A.V.
%A Sen'ko, O.V.
%A Stepanov, N.A.
%A Tretyakov, S.V.
%A Frolov, G.A.
%A Tsybenova, S.B.
%A Sherstyuk, A.V.
%A Shushkova, T.V.
%A Epiktetov, D.O.
%K organophosphorus compounds, kinetic model, dynamics of the process, the human brain, inhibition of acetylcholinesterase, acetylcholine, neuromuscular contraction, cholinergic synapse, synaptic cleft, degradation, immobilized enzymes, environmental safety, hydrolases, oxidoreductases, C-P-bound, cholinesterase, phosphatase, organophosphate hydrolase, catalysis mechanism, active center, metal ions, computer modeling, self-detoxification, composite protective materials, microbial biodegradation
%D 2020
%P 380
%I Publishing Center RIOR