Articles producció científica> Enginyeria Química

Aptamer Sandwich Assay for the Detection of SARS-CoV-2 Spike Protein Antigen

  • Identification data

    Identifier: imarina:9384385
    Authors:
    Svobodova, MarketaSkouridou, VassoJauset-Rubio, MiriamVieitez, IreneFernandez-Villar, AlbertoCabrera Alvargonzalez, Jorge JulioPoveda, EvaBenavent Bofill, ClaraSans, TeresaBashammakh, AbdulazizAlyoubi, Abdulrahman OO'Sullivan, Ciara K
    Abstract:
    The novel severe acute respiratory syndrome coronavirus (SARS-CoV-2) emerged at the end of 2019, resulting in the ongoing COVID-19 pandemic. The high transmissibility of the virus and the substantial number of asymptomatic individuals have led to an exponential rise in infections worldwide, urgently requiring global containment strategies. Reverse transcription-polymerase chain reaction is the gold standard for the detection of SARS-CoV-2 infections. Antigen tests, targeting the spike (S) or nucleocapsid (N) viral proteins, are considered as complementary tools. Despite their shortcomings in terms of sensitivity and specificity, antigen tests could be deployed for the detection of potentially contagious individuals with high viral loads. In this work, we sought to develop a sandwich aptamer-based assay for the detection of the S protein of SARS-CoV-2. A detailed study on the binding properties of aptamers to the receptor-binding domain of the S protein in search of aptamer pairs forming a sandwich is presented. Screening of aptamer pairs and optimization of assay conditions led to the development of a laboratory-based sandwich assay able to detect 21 ng/mL (270 pM) of the protein with negligible cross-reactivity with the other known human coronaviruses. The detection of 375 pg of the protein in viral transport medium demonstrates the compatibility of the assay with clinical specimens. Finally, successful detection of the S antigen in nasopharyngeal swab samples collected from suspected patients further establishes the suitability of the assay for screening purposes as a complementary tool to assist in the control of the pandemic.
  • Others:

    Author, as appears in the article.: Svobodova, Marketa; Skouridou, Vasso; Jauset-Rubio, Miriam; Vieitez, Irene; Fernandez-Villar, Alberto; Cabrera Alvargonzalez, Jorge Julio; Poveda, Eva; Benavent Bofill, Clara; Sans, Teresa; Bashammakh, Abdulaziz; Alyoubi, Abdulrahman O; O'Sullivan, Ciara K
    Department: Enginyeria Química
    URV's Author/s: Jauset Rubio, Miriam / O'SULLIVAN, CIARA KATHLEEN / Skouridou, Vasoula / SVOBODOVÁ, MARKÉTA
    Keywords: coronavirus discovery enzyme evolution in-vitro selection sensitive detection Coronavirus Discovery Enzym Enzyme Evolution In-vitro Receptor-binding domain Selection Sensitive detection
    Abstract: The novel severe acute respiratory syndrome coronavirus (SARS-CoV-2) emerged at the end of 2019, resulting in the ongoing COVID-19 pandemic. The high transmissibility of the virus and the substantial number of asymptomatic individuals have led to an exponential rise in infections worldwide, urgently requiring global containment strategies. Reverse transcription-polymerase chain reaction is the gold standard for the detection of SARS-CoV-2 infections. Antigen tests, targeting the spike (S) or nucleocapsid (N) viral proteins, are considered as complementary tools. Despite their shortcomings in terms of sensitivity and specificity, antigen tests could be deployed for the detection of potentially contagious individuals with high viral loads. In this work, we sought to develop a sandwich aptamer-based assay for the detection of the S protein of SARS-CoV-2. A detailed study on the binding properties of aptamers to the receptor-binding domain of the S protein in search of aptamer pairs forming a sandwich is presented. Screening of aptamer pairs and optimization of assay conditions led to the development of a laboratory-based sandwich assay able to detect 21 ng/mL (270 pM) of the protein with negligible cross-reactivity with the other known human coronaviruses. The detection of 375 pg of the protein in viral transport medium demonstrates the compatibility of the assay with clinical specimens. Finally, successful detection of the S antigen in nasopharyngeal swab samples collected from suspected patients further establishes the suitability of the assay for screening purposes as a complementary tool to assist in the control of the pandemic.
    Thematic Areas: Chemical engineering (all) Chemical engineering (miscellaneous) Chemistry (all) Chemistry (miscellaneous) Chemistry, multidisciplinary Ciências agrárias i Engenharias ii General chemical engineering General chemistry Interdisciplinar Química
    licence for use: https://creativecommons.org/licenses/by/3.0/es/
    Author's mail: miriam.jauset@urv.cat vasoula.skouridou@urv.cat
    Author identifier: 0000-0002-9943-6132 0000-0002-9712-5429
    Record's date: 2024-10-12
    Papper version: info:eu-repo/semantics/publishedVersion
    Papper original source: Acs Omega. 6 (51): 35657-35666
    APA: Svobodova, Marketa; Skouridou, Vasso; Jauset-Rubio, Miriam; Vieitez, Irene; Fernandez-Villar, Alberto; Cabrera Alvargonzalez, Jorge Julio; Poveda, Eva (2021). Aptamer Sandwich Assay for the Detection of SARS-CoV-2 Spike Protein Antigen. Acs Omega, 6(51), 35657-35666. DOI: 10.1021/acsomega.1c05521
    Licence document URL: https://repositori.urv.cat/ca/proteccio-de-dades/
    Entity: Universitat Rovira i Virgili
    Journal publication year: 2021
    Publication Type: Journal Publications
  • Keywords:

    Chemical Engineering (Miscellaneous),Chemistry (Miscellaneous),Chemistry, Multidisciplinary
    coronavirus
    discovery
    enzyme
    evolution
    in-vitro
    selection
    sensitive detection
    Coronavirus
    Discovery
    Enzym
    Enzyme
    Evolution
    In-vitro
    Receptor-binding domain
    Selection
    Sensitive detection
    Chemical engineering (all)
    Chemical engineering (miscellaneous)
    Chemistry (all)
    Chemistry (miscellaneous)
    Chemistry, multidisciplinary
    Ciências agrárias i
    Engenharias ii
    General chemical engineering
    General chemistry
    Interdisciplinar
    Química
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