Halttunen Teemu, Finell Mattias, Salminen Seppo
University of Turku, Functional Foods Forum, 20014 Turku, Finland.
Int J Food Microbiol. 2007 Nov 30;120(1-2):173-8. doi: 10.1016/j.ijfoodmicro.2007.06.002. Epub 2007 Jun 12.
Arsenic in drinking water is a major health problem globally. Simple, novel methods are needed for its removal from water, especially in rural areas. For this purpose, the potential of different microbes in toxin and heavy metal removal from water has gained interest. This study focused on the arsenic removal capacity of three Lactobacillus strains in their native and chemically modified forms. Both native and methylated forms of all three strains were not efficient in arsenic removal. Aminated Lactobacillus casei DSM20011 was observed to remove As(V) but not As(III) in water. Removal was fast, dependent on pH and As(V) concentration. The highest removal percentage 38.1+/-9.0% was observed at the lowest As(V) concentration (100 microg/l) studied at pH 7. The maximum As(V) removal capacity, calculated from Langmuir isotherm, was 312+/-68 microg As(V)/g dry biomass. Interactions between As(V) and the bacteria were weak, demonstrated by release of removed As(V) when contact time was prolonged. Desorption with 1.5 mM HNO3 and NaOH released all bound As(V) indicating that removal occurred at the bacterial surface.
饮用水中的砷是全球主要的健康问题。需要简单、新颖的方法来去除水中的砷,特别是在农村地区。为此,不同微生物在去除水中毒素和重金属方面的潜力受到了关注。本研究聚焦于三种天然及化学修饰形式的乳酸杆菌菌株的砷去除能力。所有三种菌株的天然形式和甲基化形式在砷去除方面均效率不高。观察到胺化的干酪乳杆菌DSM20011能去除水中的As(V),但不能去除As(III)。去除速度快,取决于pH值和As(V)浓度。在pH值为7时研究的最低As(V)浓度(100微克/升)下,观察到最高去除率为38.1±9.0%。根据朗缪尔等温线计算,最大As(V)去除能力为312±68微克As(V)/克干生物量。延长接触时间时释放出已去除的As(V),这表明As(V)与细菌之间的相互作用较弱。用1.5 mM HNO3和NaOH解吸可释放出所有结合的As(V),表明去除发生在细菌表面。
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