DNA Aptamers for Early Detection of Ebolavirus

Soma Banerjee; Jan Hoinka; Agnivo Gosai; Zhichen Zhu; Sivaranjani Devarakonda; Charith Geekiyanage; Shambhavi Shubham; Nicholas Lennemann; Jake Dillard; Natalie Ruggio; Teresa Przytycka; Wendy Maury; Pranav Shrotriya; Marit Nilsen‐Hamilton

doi:10.1096/fasebj.2021.35.S1.02931

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DNA Aptamers for Early Detection of Ebolavirus

Abstract

Peer reviewed

DNA Aptamers for Early Detection of Ebolavirus

Soma Banerjee, Jan Hoinka, Agnivo Gosai, Zhichen Zhu, Sivaranjani Devarakonda, Charith Geekiyanage, Shambhavi Shubham, Nicholas Lennemann, Jake Dillard, Natalie Ruggio, …

The FASEB journal, Vol.35(S1), p.n/a

05/2021

DOI: 10.1096/fasebj.2021.35.S1.02931

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Abstract

Nucleic acid aptamers are emerging as the new generation molecular recognition elements for diagnostics based on their synthetic nature, stability under a wide range of temperatures and amenability to different sensing platforms. Aptamers can further be modified in sequence and chemically to increase their specificities and affinities for their target molecule and to enhance their stabilities in the presence of nucleases. Such characteristics are compatible with the small electrochemical aptasensor that we are developing for point of care diagnosis of infectious virus species. Ebola virus, which kills up to 90% of those it infects, is one of the deadliest known viruses. Being highly contagious, the Ebola virus calls for rapid diagnosis for isolation of infected individuals to prevent viral outbreak. For this purpose, we have selected DNA aptamers with high affinities and specificities for Ebola virus (EBOV) soluble glycoprotein (sGP). The presence of sGP in abundance into the blood stream of infected individuals even during the early stages of infection, makes it an excellent biomarker for diagnosis. The selected aptamers functioned well on a portable nanoporous aluminum oxide (NAAO) sensor to detect sGP in Ebola infected macaque serum samples. This NAAO sensor which allows label free detection of ebola infected serum samples, now being tested against many samples for accuracy of reporting, has the potential to greatly accelerate EBOV diagnosis on site and to automatically relay that information to central authorities, thereby preventing the spread of this highly contagious virus and saving thousands of lives.

Details

Title: Subtitle: DNA Aptamers for Early Detection of Ebolavirus
Creators: Soma Banerjee - Aptalogic, Inc.AmesIA
Jan Hoinka - National Center for Biotechnology Information
Agnivo Gosai - Corning
Zhichen Zhu - Iowa State University
Sivaranjani Devarakonda - Iowa State University
Charith Geekiyanage - Aptalogic, Inc.AmesIA
Shambhavi Shubham - Genscript Inc.RedmondWA
Nicholas Lennemann - University of Iowa
Jake Dillard - University of Iowa
Natalie Ruggio - University of Iowa
Teresa Przytycka - National Center for Biotechnology Information
Wendy Maury - University of Iowa
Pranav Shrotriya - Iowa State University
Marit Nilsen‐Hamilton - Aptalogic, Inc
Resource Type: Abstract
Publication Details: The FASEB journal, Vol.35(S1), p.n/a
Publisher: The Federation of American Societies for Experimental Biology
DOI: 10.1096/fasebj.2021.35.S1.02931
ISSN: 0892-6638
eISSN: 1530-6860
Number of pages: 1
Grant note: National Library of Medicine Intramural Research Program of the NIH NIH (5R43AI118139)
Language: English
Date published: 05/2021
Academic Unit: Microbiology and Immunology
Record Identifier: 9984297543802771

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