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Crystallographic and electrophilic fragment screening of the SARS-CoV-2 main protease
Alice Douangamath; Daren Fearon; Paul Gehrtz; Tobias Krojer; Petra Lukacik; C. David Owen; Efrat Resnick; Claire Strain-Damerell; Anthony aimon; Péter Ábrányi-Balogh; Jose Brandaõ-Neto; Anna Carberry; Gemma Davison; Alexandre Dias; Thomas D Downes; Louise Dunnett; Michael Fairhead; James D Firth; S. Paul Jones; Aaron Keely; György M Keserü; Hanna F Klein; Matthew P Martin; Martin E.M. Noble; Ailsa Powell; Rambabu Reddi; Rachael Skyner; Matthew Snee; Michael J Waring; Conor Wild; Nir London; Frank von Delft; Martin A Walsh.
Affiliation
  • Alice Douangamath; Diamond Light Source Ltd.
  • Daren Fearon; Diamond Light Source Ltd.
  • Paul Gehrtz; Weizmann Institute of Science
  • Tobias Krojer; University of Oxford
  • Petra Lukacik; Diamond Light Source Ltd.
  • C. David Owen; Diamond Light Source Ltd.
  • Efrat Resnick; Weizmann Institute of Science
  • Claire Strain-Damerell; Diamond Light Source Ltd
  • Anthony aimon; Diamond Light Source Ltd. & Research Complex at Harwell
  • Péter Ábrányi-Balogh; Hungarian Academy of Sciences Research Centre for Natural Sciences
  • Jose Brandaõ-Neto; Diamond Light Source Ltd., Research Complex at Harwell
  • Anna Carberry; Diamond Light Source Ltd.
  • Gemma Davison; Cancer Research UK Drug Discovery Unit, Newcastle University Centre for Cancer
  • Alexandre Dias; Diamond Light Source Ltd.
  • Thomas D Downes; University of York
  • Louise Dunnett; Diamond Light Source Ltd.
  • Michael Fairhead; University of Oxford
  • James D Firth; University of York
  • S. Paul Jones; University of York
  • Aaron Keely; Hungarian Academy of Sciences Research Centre for Natural Sciences
  • György M Keserü; Hungarian Academy of Sciences Research Centre for Natural Sciences
  • Hanna F Klein; University of York
  • Matthew P Martin; Cancer Research UK Drug Discovery Unit, Newcastle University Centre for Cancer
  • Martin E.M. Noble; Cancer Research UK Drug Discovery Unit, Newcastle University Centre for Cancer
  • Ailsa Powell; Diamond Light Source Ltd.
  • Rambabu Reddi; Weizmann Institute of Science
  • Rachael Skyner; Diamond Light Source Ltd.
  • Matthew Snee; Diamond Light Source Ltd.
  • Michael J Waring; Cancer Research UK Drug Discovery Unit, Newcastle University Centre for Cancer
  • Conor Wild; Diamond Light Source Ltd
  • Nir London; Weizmann Institute of Science
  • Frank von Delft; Diamond Light Source Ltd., Research Complex at Harwell, University of Oxford, University of Johannesburg
  • Martin A Walsh; Diamond Light Source Ltd., Research Complex at Harwell
Preprint in En | PREPRINT-BIORXIV | ID: ppbiorxiv-118117
Journal article
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ABSTRACT
COVID-19, caused by SARS-CoV-2, lacks effective therapeutics. Additionally, no antiviral drugs or vaccines were developed against the closely related coronavirus, SARS-CoV-1 or MERS-CoV, despite previous zoonotic outbreaks. To identify starting points for such therapeutics, we performed a large-scale screen of electrophile and non-covalent fragments through a combined mass spectrometry and X-ray approach against the SARS-CoV-2 main protease, one of two cysteine viral proteases essential for viral replication. Our crystallographic screen identified 71 hits that span the entire active site, as well as 3 hits at the dimer interface. These structures reveal routes to rapidly develop more potent inhibitors through merging of covalent and non-covalent fragment hits; one series of low-reactivity, tractable covalent fragments was progressed to discover improved binders. These combined hits offer unprecedented structural and reactivity information for on-going structure-based drug design against SARS-CoV-2 main protease.
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Full text: 1 Collection: 09-preprints Database: PREPRINT-BIORXIV Language: En Year: 2020 Type: Preprint
Fulltext
Print
XML
Search on Google
Full text: 1 Collection: 09-preprints Database: PREPRINT-BIORXIV Language: En Year: 2020 Type: Preprint