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A bilayered nanoshell for durable protection of single yeast cells against multiple, simultaneous hostile stimuli.

Nan JiangGuo-Liang YingAli Kemal YetisenYunuen MontelongoLing ShenYu-Xuan XiaoHenk J BusscherXiao-Yu YangBao-Lian Su
Published in: Chemical science (2018)
Single cell surface engineering provides the most efficient, non-genetic strategy to enhance cell stability. However, it remains a huge challenge to improve cell stability in complex artificial environments. Here, a soft biohybrid interfacial layer is fabricated on individual living-cell surfaces by their exposure to a suspension of gold nanoparticles and l-cysteine to form a protecting functional layer to which porous silica layers were bound yielding pores with a diameter of 3.9 nm. The living cells within the bilayered nanoshells maintained high viability (96 ± 2%) as demonstrated by agar plating, even after five cycles of simultaneous exposure to high temperature (40 °C), lyticase and UV light. Moreover, yeast cells encapsulated in bilayered nanoshells were more recyclable than native cells due to nutrient storage in the shell.
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