Automated amplification-free digital RNA detection platform for rapid and sensitive SARS-CoV-2 diagnosis

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作者
Hajime Shinoda
Tatsuya Iida
Asami Makino
Mami Yoshimura
Junichiro Ishikawa
Jun Ando
Kazue Murai
Katsumi Sugiyama
Yukiko Muramoto
Masahiro Nakano
Kotaro Kiga
Longzhu Cui
Osamu Nureki
Hiroaki Takeuchi
Takeshi Noda
Hiroshi Nishimasu
Rikiya Watanabe
机构
[1] Cluster for Pioneering Research,Molecular Physiology Laboratory
[2] Japan Science and Technology Agency,CREST
[3] Graduate School of Science,Department of Biological Sciences
[4] The University of Tokyo,Division of Bacteriology, Department of Infection and Immunity
[5] FUJIFILM Media Crest Co.,Research Center for Drug and Vaccine Development
[6] Ltd,Department of Molecular Virology
[7] Institute for Frontier Life and Medical Sciences,Department of Chemistry and Biotechnology
[8] Kyoto University,Research Center for Advanced Science and Technology
[9] School of Medicine,undefined
[10] Jichi Medical University,undefined
[11] National Institute of Infectious Diseases,undefined
[12] Tokyo Medical and Dental University,undefined
[13] Graduate School of Engineering,undefined
[14] The University of Tokyo,undefined
[15] Structural Biology Division,undefined
[16] The University of Tokyo,undefined
[17] Inamori Research Institute for Science,undefined
来源
Communications Biology | / 5卷
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摘要
In the ongoing COVID-19 pandemic, rapid and sensitive diagnosis of viral infection is a critical deterrent to the spread of SARS-CoV-2. To this end, we developed an automated amplification-free digital RNA detection platform using CRISPR-Cas13a and microchamber device (opn-SATORI), which automatically completes a detection process from sample mixing to RNA quantification in clinical specimens within ~9 min. Using the optimal Cas13a enzyme and magnetic beads technology, opn-SATORI detected SARS-CoV-2 genomic RNA with a LoD of < 6.5 aM (3.9 copies μL−1), comparable to RT-qPCR. Additionally, opn-SATORI discriminated between SARS-CoV-2 variants of concern, including alpha, delta, and omicron, with 98% accuracy. Thus, opn-SATORI can serve as a rapid and convenient diagnostic platform for identifying several types of viral infections.
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