10 Papers
17 Citations
Sha Liu is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Cancer & Chemistry. The author has an hindex of 5, co-authored 9 publications.
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Papers
Comparative Proteomic Analysis of Exosomes and Microvesicles in Human Saliva for Lung Cancer
Yan Sun,Chunhui Huo,Zhi Qiao,Zhi Shang,Asad Uzzaman,Sha Liu,Xiaoteng Jiang,Liu-Yin Fan,Liyun Ji,Xin Guan,Cheng-Xi Cao,Hua Xiao +11 more
TL;DR: The data collectively demonstrate that salivary EVs harbor informative proteins that might be used for the detection of lung cancer through a noninvasive way.
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Systematic comparison of exosomal proteomes from human saliva and serum for the detection of lung cancer
Yan Sun,Sha Liu,Zhi Qiao,Zhi Shang,Zhijun Xia,Xiaomin Niu,Liqiang Qian,Yan Zhang,Liu-Yin Fan,Cheng-Xi Cao,Hua Xiao +10 more
TL;DR: The finding enforced the hypothesis that cancer related proteins were presented in saliva and serum exosomes, which promoted the unique features of exosome in the authors' body fluids, and could be easily established for monitoring cancer once these candidates were validated.
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Cancer Cell Derived Small Extracellular Vesicles Contribute to Recipient Cell Metastasis Through Promoting HGF/c-Met Pathway.
TL;DR: In vitro and in vivo experiments found that sEVs-HGF can promote cancer metastasis through activating c-Met pathway, which provides insights into how cancer cells send carcinogenic information to remote cells and regulate their fate, which might in turn be targeted in cancer therapy.
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Affinity chromatography assisted comprehensive phosphoproteomics analysis of human saliva for lung cancer
Chentong Wang,Liqiang Qian,Liyun Ji,Sha Liu,Amir Wahid,Xiaoteng Jiang,Amir Sohail,Yin Ji,Yan Zhang,Peng Wang,Hua Xiao +10 more
TL;DR: It is demonstrated that salivary phosphopeptides can be comprehensively characterized through Ti4+-IMAC method, and these discovered phosphoprotein candidates might be used for lung cancer detection throughsalivary diagnostics.
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Free-Flow Isoelectric Focusing for Comprehensive Separation and Analysis of Human Salivary Microbiome for Lung Cancer.
TL;DR: RFFIEF is an efficient and reproducible technology to fractionate the microbiome for its comprehensive analysis, which can be further applied to the in-depth study of the complex microbiomes and contribute to the discovery of disease associated bacteria.
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