SARS‐CoV‐2 structural coverage map reveals viral protein assembly, mimicry, and hijacking mechanisms

Seán I O’Donoghue; Andrea Schafferhans; Neblina Sikta; Christian Stolte; Sandeep Kaur; Bosco K Ho; Stuart Anderson; James B Procter; Christian Dallago; Nicola Bordin; Matt Adcock; Burkhard Rost

doi:10.15252/msb.202010079

Molecular Systems Biology (Sep 2021)

SARS‐CoV‐2 structural coverage map reveals viral protein assembly, mimicry, and hijacking mechanisms

Seán I O’Donoghue,
Andrea Schafferhans,
Neblina Sikta,
Christian Stolte,
Sandeep Kaur,
Bosco K Ho,
Stuart Anderson,
James B Procter,
Christian Dallago,
Nicola Bordin,
Matt Adcock,
Burkhard Rost

Affiliations

Seán I O’Donoghue: Garvan Institute of Medical Research Darlinghurst NSW Australia
Andrea Schafferhans: Garvan Institute of Medical Research Darlinghurst NSW Australia
Neblina Sikta: Garvan Institute of Medical Research Darlinghurst NSW Australia
Christian Stolte: Garvan Institute of Medical Research Darlinghurst NSW Australia
Sandeep Kaur: Garvan Institute of Medical Research Darlinghurst NSW Australia
Bosco K Ho: Garvan Institute of Medical Research Darlinghurst NSW Australia
Stuart Anderson: CSIRO Data61 Canberra ACT Australia
James B Procter: School of Life Sciences The University of Dundee Dundee UK
Christian Dallago: Department of Informatics Bioinformatics & Computational Biology Technical University of Munich Munich Germany
Nicola Bordin: Institute of Structural and Molecular Biology University College London London UK
Matt Adcock: CSIRO Data61 Canberra ACT Australia
Burkhard Rost: Department of Informatics Bioinformatics & Computational Biology Technical University of Munich Munich Germany

DOI: https://doi.org/10.15252/msb.202010079
Journal volume & issue: Vol. 17, no. 9
pp. n/a – n/a

Abstract

Read online

Abstract We modeled 3D structures of all SARS‐CoV‐2 proteins, generating 2,060 models that span 69% of the viral proteome and provide details not available elsewhere. We found that ˜6% of the proteome mimicked human proteins, while ˜7% was implicated in hijacking mechanisms that reverse post‐translational modifications, block host translation, and disable host defenses; a further ˜29% self‐assembled into heteromeric states that provided insight into how the viral replication and translation complex forms. To make these 3D models more accessible, we devised a structural coverage map, a novel visualization method to show what is—and is not—known about the 3D structure of the viral proteome. We integrated the coverage map into an accompanying online resource (https://aquaria.ws/covid) that can be used to find and explore models corresponding to the 79 structural states identified in this work. The resulting Aquaria‐COVID resource helps scientists use emerging structural data to understand the mechanisms underlying coronavirus infection and draws attention to the 31% of the viral proteome that remains structurally unknown or dark.

Published in Molecular Systems Biology

ISSN: 1744-4292 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General); Medicine: Medicine (General)
Website: https://www.embopress.org/journal/17444292

About the journal

Abstract

Keywords