Heavy Metal Removal by Phosphate Solubilizing Acinetobacter calcoaceticus Isolated from Rhizosphere

F. Ghoreishi, Z. Etemadifar
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引用次数: 2

Abstract

Worldwide industrial activities produce large amount of metal wastes. Metals remediation by microbial activities associated with phosphorus metabolism is a promising method. The goals of this study were the removal of some heavy metals by isolated phosphate solubilizing rhizobacterium (PSR) and survey the effect of total secreted materials including extracellular phosphatase on this phenomenon. PSR strain was isolated by Pikovskaya (PVK) medium and identified by 16S rDNA sequencing. Its phosphatase enzyme was assayed by colorimetric method. Metal resistance of the isolate was measured by the minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC). The metal removal was detected by atomic absorption spectroscopy. The culture supernatant was analyzed for metal removal by secreted phosphatase enzyme with or without tri-calcium phosphate (TCP), as its substrate. The isolated rhizobacterium was identified as Acinetobacter calcoaceticus that produced acid phosphatase enzyme. The MICs50 were obtained 2.5 mM Pb(II), 2 mM Ni(II), 0.2 mM Cr(II) and E‚1 mM Cd(II); and the MBCs were >100 mM Ni(II), 40 mM Cd(II), 20 mM Pb(II), and 1 mM (Cr(II). The removal of metals by the cells were obtained 29.45% Cr(II), 25.74% Pb(II), 18.85% Cd(II) and 11.43% Ni(II). It was not seen any nickel removal by microbial secreted products in PVK medium without TCP, whereas removal was obtained in PVK complimented by TCP 28.3%; lead removal was almost the same in both media (99%) and was not related to TCP.
根际钙酸不动杆菌磷酸盐增溶去除重金属的研究
世界范围内的工业活动产生大量的金属废料。利用磷代谢相关的微生物活性修复金属是一种很有前途的方法。本研究的目的是利用分离的磷酸溶根细菌(PSR)去除某些重金属,并探讨包括胞外磷酸酶在内的总分泌物质对这一现象的影响。采用Pikovskaya (PVK)培养基分离PSR菌株,并进行16S rDNA测序鉴定。用比色法测定其磷酸酶。采用最小抑菌浓度(MIC)和最小杀菌浓度(MBC)测定菌株对金属的抗性。用原子吸收光谱法检测金属的去除率。用分泌的磷酸酶对培养上清进行除金属分析,以三磷酸钙(TCP)为底物或不以三磷酸钙(TCP)为底物。分离得到的根杆菌鉴定为产酸性磷酸酶的钙酸不动杆菌。MICs50分别为2.5 mM Pb(II)、2 mM Ni(II)、0.2 mM Cr(II)和1 mM Cd(II);MBCs >100 mM Ni(II)、40 mM Cd(II)、20 mM Pb(II)、1 mM Cr(II)。电池对金属的去除率分别为29.45% Cr(II)、25.74% Pb(II)、18.85% Cd(II)和11.43% Ni(II)。在不添加TCP的PVK培养基中,微生物分泌产物对镍没有去除效果,而在添加了28.3% TCP的PVK培养基中,微生物分泌产物对镍有去除效果;两种介质的铅去除率几乎相同(99%),与TCP无关。
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