[用于生物脱硫的基因工程菌株的构建与评价]

[Construction and evaluation of a genetic engineered strain for biodesulfurization].

作者信息

Li Huanjie, Yu Zhijian, Xiong Xiaochao, Li Yuguang, Li Xin

机构信息

Laboratory of Biochemical and Molecular Biology, Graduate School of Chinese Academy of Agricultural Sciences, Beijing 100081, China.

出版信息

Sheng Wu Gong Cheng Xue Bao. 2008 Dec;24(12):2034-40.

PMID:19306572

Abstract

We first cloned the dsz operon of Pseudomonas delafieldii R-8 into the expressing plasmid (pPR9TT) to construct the recombinant plasmid pPR-dsz, and then reintroduced it into strain R-8 to obtain a muti-copy dsz operon engineering strain R-8-1. Compared with the wild-type, strain R-8-1 showed a higher desulfurization activity for dibenzothiophene (DBT). Initial rates of DBT removal by strain R-8-1 were 6.25 micromol/g dry cell/h, about 2-fold higher than that for wild-type strain. The recombinant cells were also applied in the desulfurization of diesel. It resulted in a 68% reduction of total sulfur from 310.8 mg/L to 100.1 mg/L, whereas only 53% of sulfur was removed by strain R-8. The stability of pPR-dsz in strain R-8-1 was studied. The results revealed the first obtain a muti-copy dsz operon engineering strain are helpful for further development in biodesulfurization.

摘要

我们首先将德氏假单胞菌R-8的dsz操纵子克隆到表达质粒（pPR9TT）中，构建重组质粒pPR-dsz，然后将其重新导入菌株R-8，以获得多拷贝dsz操纵子工程菌株R-8-1。与野生型相比，菌株R-8-1对二苯并噻吩（DBT）表现出更高的脱硫活性。菌株R-8-1去除DBT的初始速率为6.25微摩尔/克干细胞/小时，比野生型菌株高约2倍。重组细胞也应用于柴油脱硫。它使总硫含量从310.8毫克/升降低了68%，降至100.1毫克/升，而菌株R-8仅去除了53%的硫。研究了pPR-dsz在菌株R-8-1中的稳定性。结果表明，首次获得的多拷贝dsz操纵子工程菌株有助于生物脱硫的进一步发展。

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[用于生物脱硫的基因工程菌株的构建与评价]

[Construction and evaluation of a genetic engineered strain for biodesulfurization].

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