Aptasensors based on track-etched membranes coated with nanostructured silver layer for influenza A and B virus detection

封面

如何引用文章

全文:

开放存取 开放存取
受限制的访问 ##reader.subscriptionAccessGranted##
受限制的访问 订阅存取

详细

A biosensor based on a polyethylene terephthalate track membrane coated with silver nanoparticles is proposed for the detection of influenza A and B viruses using aptamers for specific sorption of the viruses on the membrane surface, as well as for the introduction of a Raman-active or fluorescent label in the complex. The analytical signal was recorded using a Raman spectrometer, observing the effects of surface-enhancing of the intensity of optical responses from the labels.

作者简介

V. Kukushkin

Institute of Solid State Physics of the Russian Academy of Sciences

Email: zlenka2006@gmail.com
Russia, 142432, Chernogolovka

О. Kristavchuk

Joint Institute for Nuclear Research

Email: zlenka2006@gmail.com
Russia, 141980, Dubna

G. Zhdanov

Lomonosov Moscow State University

Email: zlenka2006@gmail.com
Russia, 119991, Moscow

А. Keshek

Lomonosov Moscow State University

Email: zlenka2006@gmail.com
Russia, 119991, Moscow

А. Gambaryan

Chumakov Federal Scientific Centre for Research and Development of Immune and Biological Products
of the Russian Academy of Sciences

Email: zlenka2006@gmail.com
Russia, 108819, Moscow

Ye. Andreev

Joint Institute for Nuclear Research

Email: zlenka2006@gmail.com
Russia, 141980, Dubna

A. Nechaev

Joint Institute for Nuclear Research

Email: zlenka2006@gmail.com
Russia, 141980, Dubna

Е. Zavyalova

Lomonosov Moscow State University

编辑信件的主要联系方式.
Email: zlenka2006@gmail.com
Russia, 119991, Moscow

参考

  1. Кукушкин В.И., Гришина Я.В., Соловьев В.В. и др. // Письма ЖЭТФ. 2017. Т. 105. С. 637; Kukushkin V.I., Grishina Y.V., Solov’ev V.V. et al. // JETP Lett. 2017. V. 105. P. 677.
  2. Кукушкин В.И., Гришина Я.В., Егоров С.В. и др. // Письма ЖЭТФ. 2016. Т. 103. С. 572; Kukushkin V.I., Grishina Y.V., Egorov S.V. et al. // JETP Lett. 2016. V. 103. P. 508.
  3. Белик А.Я., Кукушкин В.И., Рыбин А.Я. и др. // Докл. РАН. 2018. Т. 481. С. 270; Belik A.Y., Kukushkin V.I., Rybkin A.Y. et al. // Dokl. Phys. Chem. 2018. V. 481. P. 95.
  4. Kukushkin V.I., Mukhametzhanov I.M., Kukushkin I.V. et al. // Phys. Rev. B. V. 90. Art. No. 235313.
  5. Perumal J., Wang Y., Attia A.B.E. et al. // Nanoscale. 2021. V. 13. No. 2. P. 553.
  6. Ambartsumyan O., Gribanyov D., Kukushkin V. et al. // Int. J. Mol. Sci. 2020. V. 21. No. 9. Art. No. 3373.
  7. Eskandari V., Sahbafar H., Zeinalizad L., Hadi A. // ISSS J. Micro Smart Syst. 2022. V. 11. P. 363.
  8. Zavyalova E., Tikhonova D., Zhdanov G. et al. // Analyt. Chim. Acta. 2022. V. 1221. Art. No. 340140.
  9. Kukushkin V.I., Ivanov N.M., Novoseltseva A.A. et al. // PLoS One. 2019. V. 14. No. 4. Art. No. e0216247.
  10. Ye J., Yeh Y.T., Xue Y. et al. // Proc. National. Acad. Sci. USA. 2022. V. 119. No. 23. Art. No. e2118836119.
  11. Lin Y.-J., Wu C.-Y., Li T. et al. // J. Biosens. Bioelectron. 2014. V. 5. P. 2.
  12. Lee J.H., Kim B.C., Oh B.K., Choi J.W. // J. Biomed. Nanotechnol. 2015. V. 11. No. 12. P. 2223.
  13. Adachi T., Nakamura Y. // Molecules. 2019. V. 24. No. 23. Art. No. 4229.
  14. Ni S., Zhuo Z., Pan Y. et al. // ACS Appl. Mater. Interfaces. 2021. V. 13. No. 8. P. 9500.
  15. Жданов Г.А., Грибанев Д.А., Гамбарян А.С. и др. // Изв. РАН. Сер. физ. 2022. Т. 86. № 4. С. 527; Zhdanov G.A., Gribanyov D.A., Gambaryan A.S. et al. // Bull. Russ. Acad. Sci. Phys. 2022. V. 86. No. 4. P. 434.
  16. Zhdanov G., Nyhrikova E., Meshcheryakova N. et al. // Front. Chem. 2022. V. 10. Art. No. 937180.
  17. Kristavchuk O.V., Nikiforov I.V., Kukushkin V.I. et al. // Colloid J. 2017. V. 79. P. 637.
  18. Laserna J.J., Campiglia A.D., Winefordner J.D. // Analyt. Chim. Acta. 1988. V. 208. P. 21.
  19. Muniz-Miranda M., Neto N., Sbrana G. // J. Mol. Struct. 1997. V. 410. P. 205.
  20. Taurozzi J.S., Tarabara V.V. // Environ. Engin. Sci. 2007. V. 24. No. 1. P. 122.
  21. Apel P.Yu. // Rad. Inst. 1995. V. 25. No. 1–4. P. 667.
  22. Bizyaeva A.A., Bunin D.A., Moiseenko V.L. et al. // Int. J. Mol. Sci. 2021. V. 22. No. 5. Art. No. 2409.
  23. Novoseltseva A.A., Ivanov N.M., Novikov R.A. et al. // Biomolecules. 2020. V. 10. No. 1. P. 119.
  24. Musafia B., Oren-Banaroya R., Noiman S. // PLoS One. 2014. V. 9. No. 5. Art. No. e97696.
  25. Zavyalova E., Kopylov A. // In: Nanostructures for the engineering of cells, tissues and organs. From design to applications. Chennai: William Andrew, Elsevier, 2018. 249 p.
  26. Серебренникова С.И., Кукушкин В.И., Криставчук О.В. и др. // Изв. РАН. Сер. физ. 2022. Т. 86. № 4. С. 516; Serebrennikova S.I., Kukushkin V.I., Kristavchuk O.V. et al. // Bull. Russ. Acad. Sci. Phys. 2022. V. 86. No. 4. P. 423.
  27. Herrmann B., Larsson C., Zweygberg B.W. // J. Clin. Microbiol. 2001. V. 39. P. 134.
  28. Chan K.-H., To K.K.W., Chan J.F.W. et al. // J. Clin. Microbiol. 2013. V. 51. P. 3160.
  29. Peters T.R., Blakeney E., Vannoy L., Poehling K.A. // Diagnostic Microbiol. Infect. Dis. 2013. V. 75. P. 200.

补充文件

附件文件
动作
1. JATS XML
下载
2.

下载 (568KB)
索引源数据
3.

下载 (1MB)
索引源数据
4.

下载 (1MB)
索引源数据
5.

下载 (300KB)
索引源数据

版权所有 © В.И. Кукушкин, О.В. Криставчук, Г.А. Жданов, А.К. Кешек, А.С. Гамбарян, Е.В. Андреев, А.Н. Нечаев, Е.Г. Завьялова, 2023

##common.cookie##