高磁性土壤微生物群落中锰氧化微生物的研究

E. Pleshakova, Milena A. Kasatkina, C. Ngun, M. Reshetnikov
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摘要

从微生物可能用于水净化生物技术的角度来看,研究能够从水生环境中去除重金属等危险污染物的微生物是非常重要的。对俄罗斯奥伦堡地区梅德诺戈尔斯克市高磁性土壤微生物群落分离物进行了微生物筛选,以评估其对锰(II)离子的抗性。研究对象为9株锰氧化微生物和2株铁氧化微生物:巨芽孢杆菌69.3和巨芽孢杆菌69.5。结果表明,大多数微生物在琼脂培养基上生长时,对锰(II)离子的抗性增强。微生物菌株对锰(II)的最大耐药性为55.2和69.5。这些微生物对Mn (II)的最大耐受浓度(MTC)分别为300和350 mmol/L;最低抑菌浓度(MIC)分别为350和450 mmol/L。研究55.2和69.5两种微生物菌株在液体培养基中生长5天。研究发现,在选择性培养基中培养时,菌株对Mn (II)的微生物抗性比在营养LB培养基中培养时更高。结果表明,微生物对液体培养基中Mn (II)浓度范围(0,5至250 mmol/L)具有较高的抗性。Mn (II)浓度为10 mmol/L时,所研究的微生物菌株生长最快。这些对锰(II)具有高抗性的微生物菌株为其在高锰含量的饮用水和废水净化等生物技术领域的实际应用开辟了前景。
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A study of manganese-oxidizing microorganisms isolated from microbiocenoses of highly magnetic soils
From the stand point of the possible use of microorganisms in water purification biotechnologies, studying microorganisms capable of removing dangerous pollutants such as heavy metals from the aquatic environment is of great importance. Microbial screening was conducted on isolates from microbiocenoses of highly magnetic soils of the city Mednogorsk (Orenburg region, Russia), to assess their resistance to manganese (II) ions. The objects of this research were nine strains of manganese-oxidizing microorganisms and two strains of iron-oxidizing microorganisms: Bacillus megaterium 69.3 and B. megaterium 69.5. It was observed that, most of the studied microorganisms were characterized by increased resistance to manganese (II) ions when grown on an agar medium. Maximum resistance to Mn (II) was observed in microbial strains: 55.2 and B. megaterium 69.5. The maximum tolerant concentration (MTC) of Mn (II) for these microorganisms was 300 and 350 mmol/L; the minimum inhibitory concentration (MIC) was 350 and 450 mmol/L, respectively. When studying the growth of the two microbial strains: 55.2 and B. megaterium 69.5 in liquid media for 5 days. It was discovered that, when cultured in a selective medium, microbial resistance of the strains to Mn (II) was higher compared to when cultured in a nutrient LB medium. The results showed high resistance of microorganisms to a range of Mn (II) concentrations: from 0,5 to 250 mmol/L in a liquid medium. Maximum growth of the studied microbial strains was observed at Mn (II) concentration of 10 mmol/L. These microbial strains with high resistance to Mn (II) open up the prospect of their practical use for biotechnological purposes involving the purification of drinking and wastewater from high manganese content.
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