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嗜酒全色菌21D菌株从硫化物污染介质中去除硫化物并回收元素硫

Sulfide removal and elemental sulfur recycling from a sulfide-polluted medium by Allochromatium vinosum strain 21D.

作者信息

Borkenstein Clemens G, Fischer Ulrich

机构信息

Department of Marine Microbiology, Center for Environmental Research Technology, University of Bremen, Germany.

出版信息

Int Microbiol. 2006 Dec;9(4):253-8.

Abstract

Phototrophic purple sulfur bacteria oxidize sulfide to elemental sulfur, which is stored as intracellular sulfur globules. The mutant Allochromatium vinosum strain 21D, containing an inactivated dsrB gene, is unable to further oxidize intracellularly stored sulfur to sulfate. This mutant was used as a biocatalyst in a biotechnological process to eliminate sulfide from synthetic wastewater and to recycle elemental sulfur as a raw material. For this purpose, the mutant was grown in an illuminated 5-liter bioreactor (30 microE/m2/s PAR) at 30 degrees C for 61 days in anoxic phototrophic medium. The process of sulfide removal was semi-continuous and consisted of three consecutive fed-batch sections. Sulfide was repeatedly added into the bioreactor and oxidized by the cells to sulfur. In the presence of the mutant, no unwanted sulfate was produced during sulfide removal. A maximum sulfide removal rate of 49.3 microM/h, a maximum sulfide removal efficiency of 98.7%, and 60.4% sulfur recycling were achieved.

摘要

光合紫色硫细菌将硫化物氧化为元素硫,元素硫以细胞内硫颗粒的形式储存。突变型嗜酒色杆菌21D菌株含有失活的dsrB基因,无法将细胞内储存的硫进一步氧化为硫酸盐。该突变体在生物技术过程中用作生物催化剂,以去除合成废水中的硫化物,并将元素硫作为原料进行回收利用。为此,该突变体在30℃的5升光照生物反应器(光合有效辐射为30微爱因斯坦/平方米/秒)中,于缺氧光合培养基中培养61天。硫化物去除过程是半连续的,由三个连续的分批补料阶段组成。硫化物被反复添加到生物反应器中,并被细胞氧化为硫。在突变体存在的情况下,硫化物去除过程中不会产生不需要的硫酸盐。实现了最大硫化物去除率49.3微摩尔/小时、最大硫化物去除效率98.7%和60.4%的硫回收率。

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