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Dr. Ahmed Mahmoud Hassan Mohamed :: Publications:

Title:
Single microbead-based fluorescence “turn on” detection of biothiols by flow cytometry
Authors: Ahmed Mohamed; Xuemeng Li; Jinquan Li; Chuangye Lin; Abdullah M. Asiri; Hadi M. Marwani; Suhua Wang; Zhidong Xiao; Bin Li; Chao Yuan
Year: 2019
Keywords: Biothiols; Microbead; Flow cytometry; Turn on fluorescence; Cell imaging
Journal: Talanta
Volume: 195
Issue: Not Available
Pages: 197-203
Publisher: Elsevier
Local/International: International
Paper Link:
Full paper Ahmed Mahmoud Hassan Mohamed _Single microbead-based fluorescence “turn on” detection of biothiols by.docx
Supplementary materials Not Available
Abstract:

Biological thiols (biothiols), such as glutathione (GSH), cysteine (Cys) and homocysteine (Hcy), play a vital role in the process of reversible redox reactions in physiological systems. In this work, flow cytometry-based fluorescent sensor is for the first time developed for the detection of biothiols in a fluorescence “turn on” manner. The probe which we name “Polystyrene/Quantum Dots/Gold Nanoparticles” or (PS/QDs/Au) is constructed by immobilizing QDs onto the surface of PS microbeads to obtain fluorescent microbeads. The probe (PS/QDs/Au) is constructed by immobilizing QDs onto the surface of PS microbeads to obtain fluorescent microbeads, followed by gold NPs absorption through electrostatic interaction to quench their fluorescence. In the presence of biothiols, the fluorescence of our probe can be restored in less than 5 min, and the detection limits for GSH, Cys and Hcy are 0.5 μM, 0.1 μM and 0.3 μM, respectively. Most importantly, the fluorescence signal of each of our probe microbeads can be collected individually by flow cytometry, realizing single microbead-based biothiols detection for the first time. Moreover, the probe is successfully applied to imaging of intracellular biothiols in A549 cells, demonstrating its potential in biological application.

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