The study proved Czech scientist’s biochip to fast and reliably detect SARS-CoV-2

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The biochip is as fast as an antigen test and at the time as reliable as the PCR method. A team of Czech scientists from the Institute of Physics led by Hana Lísalová has achieved the most crucial milestone in the development of a unique system for the detection of the SARS-CoV-2 virus causing COVID-19. Biosensor research, which the system is based on, confirmed their sensitivity and reliability and opened new options for further development in this area.

Unique technology: polymer, antibodies, and N-protein. The breakthrough technology combines physical, chemical, and biological principles.
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Unique technology: polymer, antibodies, and N-protein. The breakthrough technology combines physical, chemical, and biological principles.

The method is a result of the collaboration of the physicist with teams from the Biological Centre of the Czech Academy of Sciences and the University of South Bohemia in České Budějovice. The outcomes have now been published by the ACS Applied Materials and Interfaces journal.

“The results of our current research were preceded by years’ long work on the development of biochips intended for detection of other pathogens such as the ones causing hepatitis or E. coli. After the outbreak of the COVID-19 pandemic, we came up with an idea to use it to detect the SARS-CoV-2 virus,” says Hana Lísalová, the leader of the research team from the Institute of Physics of the Czech Academy of Sciences. The basic research has now been completed and the functionality and reliability of the developed solution has been verified.

Virologists from the Biology Centre of the Czech Academy of Sciences and the Faculty of Science of the University of South Bohemia, who participated in the development and optimization of the biochip, prepared and tested samples containing infectious virus particles, helped to optimize detection and sensor sensitivity and checked results using standard SARS-CoV-2 coronavirus detection methods. Cooperation with other research institutes in the Czech Republic and abroad proved to be crucial. “Mainly collaboration with the team of An-Suei Yang from Academia Sinica (Taiwan) that developed and gave us the respective antibody,” says Hana Lísalová. 

Unique technology: polymer, antibodies, and N-protein

The breakthrough technology combines physical, chemical, and biological principles. The system works on the basis of a functional biochip, on which a thin layer of polymer is applied. Antibodies that specifically capture the SARS-CoV-2 virus are then bound to it. As a result of this special, so-called anti-fouling property, the other particles on the biochip are not caught and are washed away.

The respective antibodies bound to an anti-fouling brush respond to a viral N-protein that is more stable and does not undergo mutations to the same extent as the S-protein. The advantage of the method is therefore also its reliability, which does not need to be affected by various mutations. The method benefits from the absence of sample modification, where the detected N protein forms complexes with viral RNA, so the signal is naturally amplified. This method is thus also significantly faster compared to conventional PCR tests, in which it is necessary to first isolate viral RNA.

Hana Lísalová, the leader of the research team from the Institute of Physics 
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Hana Lísalová, the leader of the research team from the Institute of Physics 

“The great results in this research could have been achieved only thanks to the great commitment of the top scientists in an interdisciplinary team. It is interdisciplinarity that can advance the results of scientific research to even greater societal impacts. In the Institute of Physics, interdisciplinarity has been our focus for a number of years,“ said Alexandr Dejneka, the head of the Division of Optics of the Institute of Physics of the Czech Academy of Sciences, where the research originated. In addition to Hana Lísalová, the main women-researchers included Michala Forinová and Alina Pilipenco from the Institute of Physics of the Czech Academy of Sciences

In parallel with this extensive basic research, scientists from the Institute of Physics of the Czech Academy of Sciences are also working on the application of the developed biochip systems to practice - for example, in cooperation with CARDAM Solution they are working on a robotic system. 

 

doi.org/10.1021/acsami.1c16930

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