Antiviral Therapeutics: Graphene Oxide Nanosheets Interact and Interfere with SARS‐CoV‐2 Surface Proteins and Cell Receptors to Inhibit Infectivity (Small 25/2021)

Antiviral Therapeutics: Graphene Oxide Nanosheets Interact and Interfere with SARS‐CoV‐2 Surface Proteins and Cell Receptors to Inhibit Infectivity (Small 25/2021)

In article number 2101483, Kostas Kostarelos, Açelya Yilmazer, and co‐workers report that thin, biological‐grade graphene oxide (GO) nanosheets show molecular affinity toward the SARS‐CoV‐2 viral spike and the ACE2‐bound spike complex. GO nanosheets were shown to inhibit the infection of wild‐type S...

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Published in:Small (Weinheim an der Bergstrasse, Germany) Vol. 17; no. 25
Main Authors: Unal, Mehmet Altay, Bayrakdar, Fatma, Nazir, Hasan, Besbinar, Omur, Gurcan, Cansu, Lozano, Neus, Arellano, Luis M., Yalcin, Süleyman, Panatli, Oguzhan, Celik, Dogantan, Alkaya, Damla, Agan, Aydan, Fusco, Laura, Suzuk Yildiz, Serap, Delogu, Lucia Gemma, Akcali, Kamil Can, Kostarelos, Kostas, Yilmazer, Açelya
Format: Journal Article
Language:English
Published: 24-06-2021
Subjects:
antiviral therapeutics
COVID‐19
in silico
in vitro
viral mutations
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Abstract In article number 2101483, Kostas Kostarelos, Açelya Yilmazer, and co‐workers report that thin, biological‐grade graphene oxide (GO) nanosheets show molecular affinity toward the SARS‐CoV‐2 viral spike and the ACE2‐bound spike complex. GO nanosheets were shown to inhibit the infection of wild‐type SARS‐CoV‐2 experimentally in cell cultures. Through an interplay of molecular dynamics simulations and cell biology, this work demonstrates that graphene oxide sheets could offer a platform to effectively interact and potentially transport other molecules to inactivate SARS‐CoV‐2.
AbstractList In article number 2101483, Kostas Kostarelos, Açelya Yilmazer, and co‐workers report that thin, biological‐grade graphene oxide (GO) nanosheets show molecular affinity toward the SARS‐CoV‐2 viral spike and the ACE2‐bound spike complex. GO nanosheets were shown to inhibit the infection of wild‐type SARS‐CoV‐2 experimentally in cell cultures. Through an interplay of molecular dynamics simulations and cell biology, this work demonstrates that graphene oxide sheets could offer a platform to effectively interact and potentially transport other molecules to inactivate SARS‐CoV‐2.
Author Delogu, Lucia Gemma
Akcali, Kamil Can
Besbinar, Omur
Kostarelos, Kostas
Yalcin, Süleyman
Suzuk Yildiz, Serap
Alkaya, Damla
Bayrakdar, Fatma
Panatli, Oguzhan
Fusco, Laura
Nazir, Hasan
Gurcan, Cansu
Lozano, Neus
Agan, Aydan
Unal, Mehmet Altay
Yilmazer, Açelya
Arellano, Luis M.
Celik, Dogantan
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  organization: The University of Manchester
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  surname: Yilmazer
  fullname: Yilmazer, Açelya
  organization: Ankara University
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Snippet In article number 2101483, Kostas Kostarelos, Açelya Yilmazer, and co‐workers report that thin, biological‐grade graphene oxide (GO) nanosheets show molecular...
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SubjectTerms antiviral therapeutics
COVID‐19
in silico
in vitro
viral mutations
Title Antiviral Therapeutics: Graphene Oxide Nanosheets Interact and Interfere with SARS‐CoV‐2 Surface Proteins and Cell Receptors to Inhibit Infectivity (Small 25/2021)
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fsmll.202170123
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