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Synthesis of peptides containing N-2-aminoethylglycine--'reduction analogues'.含N-2-氨基乙基甘氨酸的肽的合成——“还原类似物”
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Bacterial degradation of nitrilotriacetic acid (NTA).次氮基三乙酸(NTA)的细菌降解
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Metabolism of nitrilotriacetate by cells of Pseudomonas species.假单胞菌属细胞对次氮基三乙酸的代谢
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Microbial oxidation of amines. Partial purification of a mixed-function secondary-amine oxidase system from Pseudomonas aminovorans that contains an enzymically active cytochrome-P-420-type haemoprotein.胺的微生物氧化。从食氨基假单胞菌中部分纯化一种混合功能仲胺氧化酶系统,该系统含有一种具有酶活性的细胞色素-P-420型血红蛋白。
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曝气塘中微生物群落对乙二胺四乙酸的降解作用

Degradation of ethylenediaminetetraacetic acid by mictobial populations from an aerated lagoon.

作者信息

Belly R T, Lauff J J, Goodhue C T

出版信息

Appl Microbiol. 1975 Jun;29(6):787-94. doi: 10.1128/am.29.6.787-794.1975.

DOI:10.1128/am.29.6.787-794.1975
PMID:239630
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC187081/
Abstract

The ferric chelate of ethylenediaminetetraacetic acid (EDTA) was biologically degraded by a mixed population of microorganisms present in an aerated lagoon receiving this chemical in its feed. As determined radiorespirometrically, 28% of the acetate-2-C and 30% of the ethylene position of the ammonium ferric chelate of [14C]EDTA was recovered as 14CO2 after 5 days. In a separate experiment using gas liquid chromatography and the sodium ferric chelate, as much as 89% disappearance of EDTA (0.1% wt/vol) was observed during a similar time period. Optimum 14CO2 evolution was observed at a pH value between 7 and 8 and at room temperature. Degradation of NH4Fe-[2-14C]EDTA was stimulated by the addition of either unlabeled NaFe-EDTA, nitrilotriacetic acid or ethylenediamine, and inhibited by the addition of a variety of different sugars and amino acids. Consistent with the biological nature of this degradation, little or no 14CO2 evolution was observed after heat treatment of the microorganisms at 100 C for 10 min, or after the addition of antibiotics to the incubation mixtures. Gas-liquid chromatography and mass spectral analyses were performed to demonstrate EDTA disappearance and to identify possible intermediates of EDTA degradation.

摘要

在一个曝气塘中,接收乙二胺四乙酸铁螯合物(EDTA)的混合微生物群体对其进行了生物降解。通过放射性呼吸测定法确定,5天后,[14C]EDTA的铵铁螯合物中28%的乙酸-2-C和30%的乙烯位置以14CO2的形式回收。在另一个使用气相色谱法和铁螯合钠的实验中,在类似的时间段内观察到高达89%的EDTA(0.1%重量/体积)消失。在pH值为7至8且室温下观察到最佳的14CO2释放。添加未标记的NaFe-EDTA、次氮基三乙酸或乙二胺可刺激NH4Fe-[2-14C]EDTA的降解,而添加各种不同的糖和氨基酸则会抑制其降解。与这种降解的生物学性质一致,在100℃下对微生物进行10分钟热处理后,或在孵育混合物中添加抗生素后,几乎没有观察到14CO2释放。进行了气相色谱和质谱分析,以证明EDTA的消失并鉴定EDTA降解的可能中间体。