Plasmonic nanosensor array for multiplexed DNA-based pathogen detection
Zopf, D., Pittner, A., Dathe, A., Grosse, N., Csáki, A., Arstila, K., Toppari, J., Schott, W., Dontsov, D., Uhlrich, G., Fritzsche, W., & Stranik, O. (2019). Plasmonic nanosensor array for multiplexed DNA-based pathogen detection. ACS Sensors, 4(2), 335-343. https://doi.org/10.1021/acssensors.8b01073
Published in
ACS SensorsAuthors
Date
2019Discipline
FysiikkaNanoscience CenterKiihdytinlaboratorioPhysicsNanoscience CenterAccelerator LaboratoryCopyright
© 2019 American Chemical Society
In this research we introduce a plasmonic nanoparticle based optical biosensor for monitoring of molecular binding events. The sensor utilizes spotted gold nanoparticle arrays as sensing platform. The nanoparticle spots are functionalized with capture DNA sequences complementary to the analyte (target) DNA. Upon incubation with the target sequence, it will bind on the respectively complementary functionalized particle spot. This binding changes the local refractive index, which is detected spectroscopically as the resulting changes of the localized surface plasmon resonance (LSPR) peak wavelength. In order to increase the signal, a small gold nanoparticle label is introduced. The binding can be reversed using chemical means (10 mM HCl). It is demonstrated that multiplexed detection and identification of several fungal pathogen DNA sequences subsequently on one sensor array are possible by this approach.
Publisher
American Chemical SocietyISSN Search the Publication Forum
2379-3694Keywords
Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/28880712
Metadata
Show full item recordCollections
License
Related items
Showing items with similar title or keywords.
-
Dipolar coupling of nanoparticle-molecule assemblies : an efficient approach for studying strong coupling
Fojt, Jakub; Rossi, Tuomas P.; Antosiewicz, Tomasz J.; Kuisma, Mikael; Erhart, Paul (American Institute of Physics, 2021)Strong light–matter interactions facilitate not only emerging applications in quantum and non-linear optics but also modifications of properties of materials. In particular, the latter possibility has spurred the development ... -
Structural characterization of site-modified nanocapsid with monodispersed gold clusters
Stark, Marie; Baikoghli, Mo A.; Lahtinen, Tanja; Malola, Sami; Xing, Li; Nguyen, Michelle; Nguyen, Marina; Sikaroudi, Aria; Marjomäki, Varpu; Häkkinen, Hannu; Cheng, Holland (Nature Publishing Group, 2017)Hepatitis E Virus-like particles self-assemble in to noninfectious nanocapsids that are resistant to proteolytic/acidic mucosal delivery conditions. Previously, the nanocapsid was engineered to specifcally bind and enter ... -
Development of Focused Ultrasound-Assisted Nanoplexes for RNA Delivery
Ranjan, Sanjeev; Bosch, Stef; Lukkari, Hannamari; Schirmer, Johanna; Aaltonen, Niina; Nieminen, Heikki J.; Lehto, Vesa-Pekka; Urtti, Arto; Lajunen, Tatu; Rilla, Kirsi (MDPI, 2024)RNA-based therapeutics, including siRNA, have obtained recognition in recent years due to their potential to treat various chronic and rare diseases. However, there are still limitations to lipid-based drug delivery systems ... -
Enhancing silicon solar cell efficiency with metal nanoparticles
Pennanen, Antti (2009) -
Aptamer-Embedded DNA Origami Cage for Detecting (Glycated) Hemoglobin with a Surface Plasmon Resonance Sensor
Duanghathaipornsuk, Surachet; Shen, Boxuan; Cameron, Brent D.; Ijäs, Heini; Linko, Veikko; Kostiainen, Mauri A.; Kim, Dong-Shik (Elsevier, 2020)DNA origami-based cages functionalized with aptamer motifs, were used to detect hemoglobin and glycated hemoglobin. The binding between the cages and hemoglobin was monitored using a surface plasmon resonance (SPR) sensor. ...