COVID Moonshot: Open Science Discovery of SARS-CoV-2 Main Protease Inhibitors by Combining Crowdsourcing, High-Throughput Experiments, Computational Simulations, and Machine Learning (preprint)

- The COVID Moonshot Consortium; Hagit Achdout; Anthony Aimon; Elad Bar-David; Haim Barr; Amir Ben-Shmuel; James Bennett; Melissa L Bobby; Juliane Brun; Sarma BVNBS; Mark Calmiano; Anna Carbery; Emma Cattermole; John D. Chodera; Austin Clyde; Joseph E. Coffland; Galit Cohen; Jason Cole; Alessandro Contini; Lisa Cox; Milan Cvitkovic; Alex Dias; Alice Douangamath; Shirly Duberstein; Tim Dudgeon; Louise Dunnett; Peter K. Eastman; Noam Erez; Michael Fairhead; Daren Fearon; Oleg Fedorov; Matteo Ferla; Holly Foster; Richard Foster; Ronen Gabizon; Paul Gehrtz; Carina Gileadi; Charline Giroud; William G. Glass; Robert Glen; Itai Glinert; Marian Gorichko; Tyler Gorrie-Stone; Edward J Griffen; Jag Heer; Michelle Hill; Sam Horrell; Matthew F.D. Hurley; Tomer Israely; Andrew Jajack; Eric Jnoff; Tobias John; Anastassia L. Kantsadi; Peter W. Kenny; John L. Kiappes; Lizbe Koekemoer; Boris Kovar; Tobias Krojer; Alpha Albert Lee; Bruce A. Lefker; Haim Levy; Nir London; Petra Lukacik; Hannah Bruce Macdonald; Beth MacLean; Tika R. Malla; Tatiana Matviiuk; Willam McCorkindale; Sharon Melamed; Oleg Michurin; Halina Mikolajek; Aaron Morris; Garrett M. Morris; Melody Jane Morwitzer; Demetri Moustakas; Jose Brandao Neto; Vladas Oleinikovas; Gijs J. Overheul; David Owen; Ruby Pai; Jin Pan; Nir Paran; Benjamin Perry; Maneesh Pingle; Jakir Pinjari; Boaz Politi; Ailsa Powell; Vladimir Psenak; Reut Puni; Victor L. Rangel; Rambabu N. Reddi; St Patrick Reid; Efrat Resnick; Matthew C. Robinson; Ralph P. Robinson; Dominic Rufa; Christopher Schofield; Aarif Shaikh; Jiye Shi; Khriesto Shurrush; Assa Sittner; Rachael Skyner; Adam Smalley; Mihaela D. Smilova; John Spencer; Claire Strain-Damerell; Vishwanath Swamy; Hadas Tamir; Rachael Tennant; Andrew Thompson; Warren Thompson; Susana Tomasio; Anthony Tumber; Ioannis Vakonakis; Ronald P. van Rij; Finny S. Varghese; Mariana Vaschetto; Einat B. Vitner; Vincent Voelz; Annette von Delft; Frank von Delft; Martin Walsh; Walter Ward; Charlie Weatherall; Shay Weiss; Conor Francis Wild; Matthew Wittmann; Nathan Wright; Yfat Yahalom-Ronen; Daniel Zaidmann; Hadeer Zidane; Nicole Zitzmann

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COVID Moonshot: Open Science Discovery of SARS-CoV-2 Main Protease Inhibitors by Combining Crowdsourcing, High-Throughput Experiments, Computational Simulations, and Machine Learning (preprint)

- The COVID Moonshot Consortium; Hagit Achdout; Anthony Aimon; Elad Bar-David; Haim Barr; Amir Ben-Shmuel; James Bennett; Melissa L Bobby; Juliane Brun; Sarma BVNBS; Mark Calmiano; Anna Carbery; Emma Cattermole; John D. Chodera; Austin Clyde; Joseph E. Coffland; Galit Cohen; Jason Cole; Alessandro Contini; Lisa Cox; Milan Cvitkovic; Alex Dias; Alice Douangamath; Shirly Duberstein; Tim Dudgeon; Louise Dunnett; Peter K. Eastman; Noam Erez; Michael Fairhead; Daren Fearon; Oleg Fedorov; Matteo Ferla; Holly Foster; Richard Foster; Ronen Gabizon; Paul Gehrtz; Carina Gileadi; Charline Giroud; William G. Glass; Robert Glen; Itai Glinert; Marian Gorichko; Tyler Gorrie-Stone; Edward J Griffen; Jag Heer; Michelle Hill; Sam Horrell; Matthew F.D. Hurley; Tomer Israely; Andrew Jajack; Eric Jnoff; Tobias John; Anastassia L. Kantsadi; Peter W. Kenny; John L. Kiappes; Lizbe Koekemoer; Boris Kovar; Tobias Krojer; Alpha Albert Lee; Bruce A. Lefker; Haim Levy; Nir London; Petra Lukacik; Hannah Bruce Macdonald; Beth MacLean; Tika R. Malla; Tatiana Matviiuk; Willam McCorkindale; Sharon Melamed; Oleg Michurin; Halina Mikolajek; Aaron Morris; Garrett M. Morris; Melody Jane Morwitzer; Demetri Moustakas; Jose Brandao Neto; Vladas Oleinikovas; Gijs J. Overheul; David Owen; Ruby Pai; Jin Pan; Nir Paran; Benjamin Perry; Maneesh Pingle; Jakir Pinjari; Boaz Politi; Ailsa Powell; Vladimir Psenak; Reut Puni; Victor L. Rangel; Rambabu N. Reddi; St Patrick Reid; Efrat Resnick; Matthew C. Robinson; Ralph P. Robinson; Dominic Rufa; Christopher Schofield; Aarif Shaikh; Jiye Shi; Khriesto Shurrush; Assa Sittner; Rachael Skyner; Adam Smalley; Mihaela D. Smilova; John Spencer; Claire Strain-Damerell; Vishwanath Swamy; Hadas Tamir; Rachael Tennant; Andrew Thompson; Warren Thompson; Susana Tomasio; Anthony Tumber; Ioannis Vakonakis; Ronald P. van Rij; Finny S. Varghese; Mariana Vaschetto; Einat B. Vitner; Vincent Voelz; Annette von Delft; Frank von Delft; Martin Walsh; Walter Ward; Charlie Weatherall; Shay Weiss; Conor Francis Wild; Matthew Wittmann; Nathan Wright; Yfat Yahalom-Ronen; Daniel Zaidmann; Hadeer Zidane; Nicole Zitzmann.

biorxiv; 2020.

Preprint Dans Anglais | bioRxiv | ID: ppzbmed-10.1101.2020.10.29.339317

ABSTRACT

ABSTRACT

Herein we provide a living summary of the data generated during the COVID Moonshot project focused on the development of SARS-CoV-2 main protease (Mpro) inhibitors. Our approach uniquely combines crowdsourced medicinal chemistry insights with high throughput crystallography, exascale computational chemistry infrastructure for simulations, and machine learning in triaging designs and predicting synthetic routes. This manuscript describes our methodologies leading to both covalent and non-covalent inhibitors displaying protease IC50 values under 150 nM and viral inhibition under 5 uM in multiple different viral replication assays. Furthermore, we provide over 200 crystal structures of fragment-like and lead-like molecules in complex with the main protease. Over 1000 synthesized and ordered compounds are also reported with the corresponding activity in Mpro enzymatic assays using two different experimental setups. The data referenced in this document will be continually updated to reflect the current experimental progress of the COVID Moonshot project, and serves as a citable reference for ensuing publications. All of the generated data is open to other researchers who may find it of use.

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Texte intégral: Disponible Collection: Preprints Base de données: bioRxiv langue: Anglais Année: 2020 Type de document: Preprint

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Texte intégral: Disponible Collection: Preprints Base de données: bioRxiv langue: Anglais Année: 2020 Type de document: Preprint