重组大肠杆菌表达砷甲基转移酶的研究

M. Miyatake, Koshiro Takase, J. Hirose, K. Shiomori, H. Yokoi
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引用次数: 0

摘要

本研究旨在通过诱导无机砷的微生物甲基化来促进高效的砷解毒。将重组大肠杆菌菌株K63和KC42转化为过表达砷甲基转移酶,并利用提取的酶对无机砷的甲基化进行评价。为了通过维持酶活性来保证反应的连续性,将提取的酶固定在微胶囊(MC)中催化无机砷的甲基化。菌株K63的甲基化有机砷化合物总收率为32.9%(在pH 7.0和35℃条件下培养2 h),其中三甲基砷化合物(TMAC)占8.3%。菌株KC42在pH 6.5、35℃条件下培养2 h,总产率为35.9%,其中TMAC占10.8%。用粗酶溶液制备MC甲基化砷时,菌株K63和KC42甲基化有机砷化合物的总收率分别为12.6%和5.7%。菌株K63和KC42的残留酶活性分别为53.1%和48.8%。未来的研究应致力于通过优化MCs中酶固定的条件来提高剩余酶活性,从而提高有机砷化合物的产量。
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Study on Arsenic Methyltransferase Expressed in Recombinant E. coli
This study aimed to facilitate efficient arsenic detoxification by inducing the microbial methylation of inorganic arsenic. Recombinant Escherichia coli strains K63 and KC42 were transformed to overexpress arsenic methyltransferase, and the methylation of inorganic arsenic was evaluated using the enzyme extracted from these strains. To ensure continuous reactions by maintaining enzymatic activity, the extracted enzyme was immobilized in microcapsules (MC) to catalyze the methylation of inorganic arsenic. The total yield of methylated organic arsenic compounds in strain K63 was 32.9% (after 2 h of incubation at pH 7.0 and 35°C), of which trimethyl arsenic compounds (TMAC) accounted for 8.3%. The total yield in strain KC42 was 35.9% (after 2 h of incubation at pH 6.5 and 35°C), of which TMAC accounted for 10.8%. When arsenic was methylated using MC prepared with the crude enzyme solution, the total yield of methylated organic arsenic compounds was 12.6% and 5.7% in strains K63 and KC42, respectively. The residual enzymatic activity was calculated to be 53.1% and 48.8% in strains K63 and KC42, respectively. Future studies should aim to increase the residual enzymatic activity, thus elevating the yield of organic arsenic compounds, by optimizing the conditions for enzyme immobilization in MCs.
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