The present work demonstrates the heavy metal resistance and detoxification of Cr(VI) by the probiotic actinobacterial cultures isolated from chicken and goat feces. The actinobacterial isolates were screened for heavy metal resistance by qualitative, semiquantitative assays and Cr(VI) biosorption was determined by analytical techniques such as atomic absorption spectrophotometry and Fourier transform infrared spectrometry (FT-IR). All the tested actinobacterial isolates (n = 20) showed resistance toward K2Cr2O7, NiCl2, ZnCl2, CuSO4 and PbNO3 at 20 mg L-1 concentration. The maximum tolerance concentration values were found to be 200-250 mg L-1 for K2Cr2O7, 100-250 mg L-1 for PbNO3 and <50-250 mg L-1 for NiCl2, ZnCl2 and CuSO4. Among the five tested heavy metals, Cr(VI) was resisted by 95 % of the tested actinobacterial cultures up to 250 mg L-1 concentration; particularly, the isolate LD22 exhibited a high degree of tolerance to all the tested heavy metals. Thus, the isolate was justifiably chosen for Cr(VI) biosorption study and the biosorption efficacy was found maximum at 100 mg L-1 of metal ion concentration (3 g L-1 of biomass dosage and pH 7.0). FT-IR spectrum revealed the chemical interactions between the hydroxyl, amine and carboxyl groups of the biomass and the metal ions. On the basis of phenotypic, physiological, biochemical and molecular characteristics the isolate LD22 was identified as Streptomyces werraensis LD22 (JX524481) which could be used to develop a biosorbent for adsorbing Cr(VI) metal ions.

译文

本工作证明了从鸡和山羊粪便中分离出的益生菌放线菌培养物对Cr(VI) 的重金属抗性和解毒作用。通过定性,半定量分析筛选放线菌分离株的重金属抗性,并通过原子吸收分光光度法和傅里叶变换红外光谱法 (ft-ir) 等分析技术测定Cr(VI) 的生物吸附。所有测试的放线菌分离株 (n = 20) 在20 mg L-1浓度下均显示出对K2Cr2O7,NiCl2,ZnCl2,CuSO4和PbNO3的抗性。发现最大耐受浓度值对于K2Cr2O7为200-250 mg L-1,对于PbNO3为100-250 mg L-1,对于NiCl2,ZnCl2和cuso4为 <50-250 mg L-1。在五种测试的重金属中,Cr(VI) 被95% 测试的放线菌培养物抵抗高达250 mg L-1浓度; 特别地,分离物LD22对所有测试的重金属表现出高度的耐受性。因此,合理地选择分离物进行Cr(VI) 生物吸附研究,发现在L-1 100 mg金属离子浓度 (3g L-1生物质剂量和pH 7.0) 时,生物吸附效力最大。Ft-ir光谱揭示了生物质的羟基,胺和羧基与金属离子之间的化学相互作用。根据表型,生理,生化和分子特征,将分离物LD22鉴定为werraensis链霉菌LD22 (JX524481),可用于开发吸附Cr(VI) 金属离子的生物吸附剂。

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