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- Title
Individual Surface-Engineered Microorganisms as Robust Pickering Interfacial Biocatalysts for Resistance-Minimized Phase-Transfer Bioconversion.
- Authors
Chen, Zhaowei; Ji, Haiwei; Zhao, Chuanqi; Ju, Enguo; Ren, Jinsong; Qu, Xiaogang
- Abstract
A powerful strategy for long-term and diffusional-resistance-minimized whole-cell biocatalysis in biphasic systems is reported where individually encapsulated bacteria are employed as robust and recyclable Pickering interfacial biocatalysts. By individually immobilizing bacterial cells and optimizing the hydrophobic/hydrophilic balance of the encapsulating magnetic mineral shells, the encased bacteria became interfacially active and locate at the Pickering emulsion interfaces, leading to dramatically enhanced bioconversion performances by minimizing internal and external diffusional resistances. Moreover, in situ product separation and biocatalyst recovery was readily achieved using a remote magnetic field. Importantly, the mineral shell effectively protected the entire cell from long-term organic-solvent stress, as shown by the reusability of the biocatalysts for up to 30 cycles, while retaining high stereoselective catalytic activities, cell viabilities, and proliferative abilities.
- Subjects
MICROBIAL genetic engineering; ENZYMES; MAGNETIC fields; CELL survival; CELL proliferation
- Publication
Angewandte Chemie, 2015, Vol 127, Issue 16, p4986
- ISSN
0044-8249
- Publication type
Article
- DOI
10.1002/ange.201412049