Yong Li scite author profile

Microbial cells have shown a great potential to biosynthesize inorganic nanoparticles within their orderly regulated intracellular environment. However, very little is known about the mechanism of nanoparticle biosynthesis. Therefore, it is difficult to control intracellular synthesis through the manipulation of biological processes. Here, we present a mechanism-oriented strategy for controlling the biosynthesis of fluorescent CdSe quantum dots (QDs) by means of metabolic engineering in yeast cells. Using genetic techniques, we demonstrated that the glutathione metabolic pathway controls the intracellular CdSe QD formation. Inspired from this mechanism, the controllability of CdSe QD yield was realized through engineering the glutathione metabolism in genetically modified yeast cells. The yeast cells were homogeneously transformed into more efficient cell-factories at the single-cell level, providing a specific way to direct the cellular metabolism toward CdSe QD formation. This work could provide the foundation for the future development of nanomaterial biosynthesis.

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Human responses to high air temperature, relative humidity and carbon dioxide concentration in underground refuge chamber

Yuan

et al. 2018

Building and Environment

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Experimental research on vibration assisted EDM of micro-structures with non-circular cross-section

Tong

Wang

2008

Journal of Materials Processing Technology

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Yong Li

Circular RNAs (circRNAs) in cancer

Mechanism-Oriented Controllability of Intracellular Quantum Dots Formation: The Role of Glutathione Metabolic Pathway

Human responses to high air temperature, relative humidity and carbon dioxide concentration in underground refuge chamber

Experimental research on vibration assisted EDM of micro-structures with non-circular cross-section

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