Published
14 February 2023
  • Journal article

Surface functionalized metal-organic frameworks for binding coronavirus proteins

Authors
Desai, Aamod Vikas 
Vornholt, Simon M.
Major, Louise L
Ettlinger, Romy
Jansen, Christian
Rainer, Daniel
de Rome, Richard
So, Venus
Wheatley, Paul S.
Edward, Ailsa K.
Elliott, Caroline
Pramanik, Atin
Karmakar, Avishek
Armstrong, Robert
Janiak, Christoph
Smith, Terry K
Morris, Russell Edward 
Source
ACS Applied Materials & Interfaces

Abstract

Since the outbreak of SARS-CoV-2, a multitude of strategies have been explored for the means of protection and shielding against virus particles: filtration equipment (PPE) has been widely used in daily life. In this work, we explore another approach in the form of deactivating coronavirus particles through selective binding onto the surface of metal–organic frameworks (MOFs) to further the fight against the transmission of respiratory viruses. MOFs are attractive materials in this regard, as their rich pore and surface chemistry can easily be modified on demand. The surfaces of three MOFs, UiO-66(Zr), UiO-66-NH2(Zr), and UiO-66-NO2(Zr), have been functionalized with repurposed antiviral agents, namely, folic acid, nystatin, and tenofovir, to enable specific interactions with the external spike protein of the SARS virus. Protein binding studies revealed that this surface modification significantly improved the binding affinity toward glycosylated and non-glycosylated proteins for all three MOFs. Additionally, the pores for the surface-functionalized MOFs can adsorb water, making them suitable for locally dehydrating microbial aerosols. Our findings highlight the immense potential of MOFs in deactivating respiratory coronaviruses to be better equipped to fight future pandemics.

Cite as

Desai, A., Vornholt, S., Major, L., Ettlinger, R., Jansen, C., Rainer, D., de Rome, R., So, V., Wheatley, P., Edward, A., Elliott, C., Pramanik, A., Karmakar, A., Armstrong, R., Janiak, C., Smith, T. & Morris, R. 2023, 'Surface functionalized metal-organic frameworks for binding coronavirus proteins', ACS Applied Materials & Interfaces, 15(7), pp. 9058-9065. https://doi.org/10.1021/acsami.2c21187

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Topics
Coronavirus (COVID-19)
Keywords
COVID-19 Disinfection Health and safety Coronavirus Pandemics
Funder
University of St Andrews Restarting Research Funding Scheme
European Research Council
EPSRC Light Element Analysis Facility
EPSRC Strategic Equipment Resource Grant
Publisher
ACS Publications
Source repository
University of St Andrews
Last updated: 15 March 2024
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