标题：Reduction mechanisms of V5+ by vanadium-reducing bacteria in aqueous environments: Role of different molecular weight fractionated extracellular polymeric substances

入藏号：WOS:000864081000003

中国科学院文献情报中心期刊分区：环境科学与生态学1区TOP（2022）

本校作者：周丹；梁梦梦；夏永莲；李超；黄明正；彭书明；黄艺

来源出版物：SCIENCE OF THE TOTAL ENVIRONMENT  卷: 852  文献号: 158394

出版年：2022

第一地址：成都理工大学

关键词：Intracellular reduction;Extracellula rreduction;EPS;Amino acids;Fulvic acid-likesubstances

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摘要：Extracellular polymeric substances (EPS) are high-molecular polymers secreted by microbes and play essential roles in metallic biogeochemical cycling. Previous studies demonstrated the reducing capacity of the functional groups on EPS for metal reduction. However, the roles of different EPS components in vanadium speciation and their responsible reducing substances for vanadium reduction are still unknown. In this study, the EPS of Bacillus sp. PFYN01 was fractionated via ultrafiltration into six components with different kDa (EPS>100, EPS100-50, EPS50-30, EPS30-10, EPS10-3, and EPS< 3). Batch reduction experiments of the intact cells, EPS-free cells, the pristine and fractionated EPS with V5+ were conducted and characterized. The results demonstrated that the extracellular reduction of V5+ into V4+by EPS was the major reduction process. Among the functional groups in EPS, C=O/C-N of amide in protein/polypeptide and C=O of carboxyl in fulvic acid-like substances might act as the reductants for V5+, while C-O in polysaccharide molecules and P=O in phosphodiester played a key role in the adsorption process. The intracellular reduction was via translocating V5+ into the cells and releasing V4+ by the intracellular reductases. The reducing capacity of the fraction-ated EPS followed a sequence of EPS <3 > EPS10-3 > EPS50-30 > EPS100-50 > EPS30-10 > EPS >100. The small molecules of fulvic acid-like substances and amino acids were responsible for the high reducing capacity of EPS<3. EPS>100 had the lowest reducing capacity due to its macromolecular structure decreasing the exposure of the reactive sites. In addition to reduction, those intermediate EPS components may also have supporting functions, such as connecting protein skeletons and increasing the specific surface area of EPS. Therefore, the diverse effects of the EPS components cannot be neglected in vanadium biogeochemical cycling.

文章链接地址: https://www.sciencedirect.com/science/article/pii/S0048969722054936?via%3Dihub