Open AccessHigh-throughput label-free molecular fingerprinting flow cytometry
Author(s) -
K. Hiramatsu,
Takuro Ideguchi,
Yusuke Yonamine,
Sang Wook Lee,
Yizhi Luo,
Kazuki Hashimoto,
Takuro Ito,
Misa Hase,
Jee-Woong Park,
Yusuke Kasai,
Shinya Sakuma,
Takeshi Hayakawa,
Fumihito Arai,
Yu Hoshino,
Keisuke Goda
Publication year - 2019
Publication title -
science advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.928
H-Index - 146
ISSN - 2375-2548
DOI - 10.1126/sciadv.aau0241
Subject(s) - throughput , flow cytometry , fingerprint (computing) , microfluidics , raman spectroscopy , cytometry , raman scattering , fluorescence , biological system , computer science , chemistry , nanotechnology , materials science , physics , biology , optics , microbiology and biotechnology , telecommunications , wireless , computer security
Flow cytometry is an indispensable tool in biology for counting and analyzing single cells in large heterogeneous populations. However, it predominantly relies on fluorescent labeling to differentiate cells and, hence, comes with several fundamental drawbacks. Here, we present a high-throughput Raman flow cytometer on a microfluidic chip that chemically probes single live cells in a label-free manner. It is based on a rapid-scan Fourier-transform coherent anti-Stokes Raman scattering spectrometer as an optical interrogator, enabling us to obtain the broadband molecular vibrational spectrum of every single cell in the fingerprint region (400 to 1600 cm) with a record-high throughput of ~2000 events/s. As a practical application of the method not feasible with conventional flow cytometry, we demonstrate high-throughput label-free single-cell analysis of the astaxanthin productivity and photosynthetic dynamics of .
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