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Article Abstract
The shape of nanomaterials affects their colloidal properties, cellular uptake, and fate in the environment. The microbial origin and microenvironment can play a role in altering the shape of the nanomaterial. However, such studies have never been conducted. Here, we demonstrate that the selenium nanomaterials produced by K-12 are stable and remain as BioSe-Nanospheres under thermophilic conditions, while those produced by anaerobic granular sludge transform to BioSe-Nanorods, due to a lower quantity of proteins coating these nanoparticles, which has been verified by proteomics analysis as well as using chemically synthesized selenium nanomaterials. Furthermore, the presence of JG-B5T transform the purified BioSe-Nanospheres produced by K-12 to BioSe-Nanorods, though they are not transformed in the absence of JG-B5T. This is due to the production of peptidases by JG-B5T that cleaves the protein coating the BioSe-Nanospheres produced by K-12, leading to their transformation to trigonal BioSe-Nanorods, which is the thermodynamically more stable state. These findings suggest that the fate of selenium and probably other redox-active elements released from the biological wastewater treatment units needs to be reevaluated and improved by including microbial criteria for better accuracy.
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| http://dx.doi.org/10.1021/acs.est.0c07217 | DOI Listing |
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