Shuyao Wu
5 Papers
Shuyao Wu is an academic researcher. The author has contributed to research in topics: Chemistry & HeLa. The author has an hindex of 1, co-authored 4 publications.
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Papers
Polarity-Sensitive and Membrane-Specific Probe Quantitatively Monitoring Ferroptosis through Fluorescence Lifetime Imaging.
TL;DR: The idea to utilize a probe to quantitate the changes in polarity of plasma membranes proves to be an effective method in the evaluation of the ferroptosis process.
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Genipin improves lipid metabolism and sperm parametersin obese mice via regulation of miR-132 expression
Li Wang,Ge Chen,Shuyao Wu,Yihua Xu,Chenxi Guo,Manman Wang,Tingming Liang,Zhigang Guo,Hong-Jie Di,Zhigang Hu +9 more
TL;DR: GNP shows a broad effect on the improvement of HFD-induced metabolic disorder and sperm dysfunction in male mice by tissue-specific regulation of miR-132, suggesting that this compound is a versatile drug to treat metabolic disorders.
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A Novel Heterocyclic Xanthene-Analogous pH Probe for Quantitative Monitoring of Cell Surface pH by Fluorescence Lifetime Imaging
TL;DR: In this paper , a membrane-targeted pH probe, Mem-C0C18, based on a novel heterocyclic xanthene-analogous backbone, was designed for quantifying small pH fluctuations within cell membrane that merits further evaluation for biology applications.
1
BODIPY-Based NIR Trackers with Acidity-Driven Amphiphilicity for STED Super-Resolution Imaging of Lysosomal Membranes.
Xiangli Li,Mengting Fan,Zehui Wang,Dingxuan Li,Shuyao Wu,Xiaoyan Cui,Yi Xiao,Xinfu Zhang +7 more
TL;DR: A series of ultrabright and photostable trackers of lysosomal membranes for super-resolution imaging using stimulated emission depletion microscopy (STED) are reported, composed of lipophilic NIR BODIPY derivatives and ionizable tertiary amines that enable accurate targeting of the lysosomal membrane through the formation of transient amphiphilicity driven by the acidity in the lysosome.
1
Chiral metasurfaces in anisotropic thin film lithium niobate and its nonlinear effect
TL;DR: In this article , the effect of symmetry in the vertical direction on the linear and nonlinear response of the chiral quasi-two-dimensional metasurface has been investigated.