Email this article Immunodetection of bacteriophages by a piezoelectric resonator with lateral electric field
- Authors: Guliy O.I.1,2,3, Zaitsev B.D.4, Shikhabudinov A.M.4, Teplykh A.A.4, Borodina I.A.4, Pavliy S.A.5, Larionova O.S.2, Fomin A.S.1,3, Staroverov S.A.1,3, Dykman L.A.1, Ignatov O.V.1
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Affiliations:
- Institute of Biochemistry and Physiology of Plants and Microorganisms
- Vavilov Saratov State Agrarian University
- Saratov Research Veterinary Institute
- Saratov Branch of the Kotelnikov Institute of Radio Engineering and Electronics
- Chernyshevsky Saratov State University
- Issue: Vol 52, No 4 (2016)
- Pages: 457-463
- Section: Article
- URL: https://journals.rcsi.science/0003-6838/article/view/151990
- DOI: https://doi.org/10.1134/S0003683816040062
- ID: 151990
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Abstract
It has been demonstrated that electroacoustic analysis with polyclonal antibodies can be used for bacteriophage detection. The frequency dependences of the real and imaginary parts of electrical impedance of a resonator with a viral suspension with antibodies were shown to be essentially different from the dependences of a resonator with control viral suspension without antibodies. It was shown that ΦAl-Sp59b bacteriophages were detected with the use of antibodies in the presence of foreign virus particles. The ΦAl-Sp59b bacteriophage content in the analyzed suspension was ~1010–106 phages/mL; the time of analysis was no more than 5 min. The optimally informative parameter for obtaining reliable information was the change in the real or imaginary part of electrical impedance at a fixed frequency near the resonance upon the addition of specific antibodies to the analyzed suspension. It was demonstrated that the interaction between bacteriophages and antibodies can be recorded, offering good prospects for the development of a biological sensor for liquid-phase identification and virus detection.
About the authors
O. I. Guliy
Institute of Biochemistry and Physiology of Plants and Microorganisms; Vavilov Saratov State Agrarian University; Saratov Research Veterinary Institute
Author for correspondence.
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410049; Saratov, 410012; Saratov, 410028
B. D. Zaitsev
Saratov Branch of the Kotelnikov Institute of Radio Engineering and Electronics
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410019
A. M. Shikhabudinov
Saratov Branch of the Kotelnikov Institute of Radio Engineering and Electronics
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410019
A. A. Teplykh
Saratov Branch of the Kotelnikov Institute of Radio Engineering and Electronics
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410019
I. A. Borodina
Saratov Branch of the Kotelnikov Institute of Radio Engineering and Electronics
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410019
S. A. Pavliy
Chernyshevsky Saratov State University
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410005
O. S. Larionova
Vavilov Saratov State Agrarian University
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410012
A. S. Fomin
Institute of Biochemistry and Physiology of Plants and Microorganisms; Saratov Research Veterinary Institute
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410049; Saratov, 410028
S. A. Staroverov
Institute of Biochemistry and Physiology of Plants and Microorganisms; Saratov Research Veterinary Institute
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410049; Saratov, 410028
L. A. Dykman
Institute of Biochemistry and Physiology of Plants and Microorganisms
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410049
O. V. Ignatov
Institute of Biochemistry and Physiology of Plants and Microorganisms
Email: guliy_olga@mail.ru
Russian Federation, Saratov, 410049
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