对硫磷的微生物代谢途径。
Pathways of microbial metabolism of parathion.
作者信息
Munnecke D M, Hsieh D P
出版信息
Appl Environ Microbiol. 1976 Jan;31(1):63-9. doi: 10.1128/aem.31.1.63-69.1976.
Abstract
A mixed bacterial culture, consisting of a minimum of nine isolates, was adapted to growth on technical parathion (PAR) as a sole carbon and energy source. The primary oxidative pathway for PAR metabolism involved an initial hydrolysis to yield diethylthiophosphoric acid and p-nitrophenol. A secondary oxidative pathway involved the oxidation of PAR to paraoxon and then hydrolysis to yield p-nitrophenol and diethylphosphoric acid. Under low oxgen conditions PAR was reduced via a third pathway to p-aminoparathion and subsequently hydrolyzed to p-aminophenol and diethylthiophosphoric acid. PAR hydrolase, an enzyme produced by an isolate from the mixed culture, rapidly hydrolyzed PAR and paraoxon (6.0 mumol/mg per min). This enzyme was inducible and stable at room temperature and retained 100% of its activity when heated for 55 C for 10 min.
摘要
一种由至少九种分离菌株组成的混合细菌培养物被驯化以在工业用对硫磷(PAR)作为唯一碳源和能源的条件下生长。PAR代谢的主要氧化途径涉及最初的水解反应,生成二乙基硫代磷酸和对硝基苯酚。次要氧化途径涉及将PAR氧化为对氧磷,然后水解生成对硝基苯酚和二乙基磷酸。在低氧条件下,PAR通过第三条途径被还原为对氨基对硫磷,随后水解为对氨基酚和二乙基硫代磷酸。PAR水解酶是从混合培养物中分离出的一种菌株产生的酶,它能快速水解PAR和对氧磷(每分钟6.0微摩尔/毫克)。这种酶是可诱导的,在室温下稳定,在55℃加热10分钟后仍保留100%的活性。
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