新型神经毒剂的水解和酶促降解
Hydrolysis and enzymatic degradation of Novichok nerve agents.
作者信息
Harvey Steven P, McMahon Leslie R, Berg Frederic J
机构信息
U.S. Army Combat Capabilities and Development Command Chemical Biological Center, Aberdeen Proving Ground, MD, 21010-5424, USA.
出版信息
Heliyon. 2020 Jan 7;6(1):e03153. doi: 10.1016/j.heliyon.2019.e03153. eCollection 2020 Jan.
Several parameters of the Novichok nerve agents A230, A232 and A234 were determined. Hydrolysis rates were approximately one to three orders of magnitude slower than G-type nerve agents and approximately zero to two orders of magnitude slower than V-type nerve agents. A230 was the most labile Novichok compound followed by A232 then A234. Activation energies (E) and frequency factors (A) were determined for all three compounds. The organophosphorus acid anhydrolase (OPAA) enzyme had catalytic efficiencies on the Novichok compounds ranging between 10 and 10 M min with the highest /K value for A230, then A232 and lastly, A234.
已确定了新型有机磷神经毒剂A230、A232和A234的几个参数。其水解速率比G型神经毒剂慢约1至3个数量级,比V型神经毒剂慢约0至2个数量级。A230是最不稳定的新型有机磷化合物,其次是A232,然后是A234。已测定了所有这三种化合物的活化能(E)和频率因子(A)。有机磷酸酐酶(OPAA)对新型有机磷化合物的催化效率在10至10 M min之间,其中A230的/k值最高,其次是A232,最后是A234。
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