Peiyuan Huang scite author profile

Here, luminol electrochemiluminescence was first applied to analyze intracellular molecules, such as glucose, at single cells. The individual cells were retained in cell-sized microwells on a gold coated indium tin oxide (ITO) slide, which were treated with luminol, triton X-100, and glucose oxidase simultaneously. The broken cellular membrane in the presence of triton X-100 released intracellular glucose into the microwell and reacted with glucose oxidase to generate hydrogen peroxide, which induced luminol luminescence under positive potential. To achieve fast analysis, the luminescences from 64 individual cells on one ITO slide were imaged in 60 s using a charge-coupled device (CCD). More luminescence was observed at all the microwells after the introduction of triton X-100 and glucose oxidase suggested that intracellular glucose was detected at single cells. The starvation of cells to decrease intracellular glucose produced less luminescence, which confirmed that our luminescence intensity was correlated with the concentration of intracellular glucose. Large deviations in glucose concentration at observed single cells revealed high cellular heterogeneity in intracellular glucose for the first time. This developed electrochemiluminescence assay will be potentially applied for fast analysis of more intracellular molecules in single cells to elucidate cellular heterogeneity.

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Light-inducible deformation of mitochondria in live cells

Song

Huang

et al. 2022

Cell Chemical Biology

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Optical Activation of TrkB Signaling

Huang

Liu

Song

et al. 2020

Journal of Molecular Biology

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Optogenetics Based on Light-Gated Protein-Protein Interactions and Its Applications

Huang¹,

Yutong²,

Ning³

et al. 2020

中国激光

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Peiyuan Huang

Analysis of Intracellular Glucose at Single Cells Using Electrochemiluminescence Imaging

Light-inducible deformation of mitochondria in live cells

Optical Activation of TrkB Signaling

Optogenetics Based on Light-Gated Protein-Protein Interactions and Its Applications

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