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Evolution of the SARS-CoV-2 proteome in three dimensions (3D) during the first six months of the COVID-19 pandemic
Joseph H. Lubin; Christine Zardecki; Elliott M. Dolan; Changpeng Lu; Zhuofan Shen; Shuchismita Dutta; John D. Westbrook; Brian P. Hudson; David S. Goodsell; Jonathan K. Williams; Maria Voigt; Vidur Sarma; Lingjun Xie; Thejasvi Venkatachalam; Steven Arnold; Luz Helena Alfaro Alvarado; Kevin Catalfano; Aaliyah Khan; Erika McCarthy; Sophia Staggers; Brea Tinsley; Alan Trudeau; Jitendra Singh; Lindsey Whitmore; Helen Zheng; Matthew Benedek; Jenna Currier; Mark Dresel; Ashish Duvvuru; Britney Dyszel; Emily Fingar; Elizabeth M. Hennen; Michael Kirsch; Ali A. Khan; Charlotte Labrie-Cleary; Stephanie Laporte; Evan Lenkeit; Kailey Martin; Marilyn Orellana; Melanie Ortiz-Alvarez de la Campa; Isaac Paredes; Baleigh Wheeler; Allison Rupert; Andrew Sam; Katherine See; Santiago Soto Zapata; Paul A. Craig; Bonnie L. Hall; Jennifer Jiang; Julia R. Koeppe; Stephen A. Mills; Michael J. Pikaart; Rebecca Roberts; Yana Bromberg; J. Steen Hoyer; Siobain Duffy; Jay Tischfield; Francesc X. Ruiz; Eddy Arnold; Jean Baum; Jesse Sandberg; Grace Brannigan; Sagar D. Khare; Stephen K. Burley.
Affiliation
  • Joseph H. Lubin; Rutgers University
  • Christine Zardecki; Rutgers University
  • Elliott M. Dolan; Rutgers University
  • Changpeng Lu; Rutgers University
  • Zhuofan Shen; Rutgers University
  • Shuchismita Dutta; Rutgers University
  • John D. Westbrook; Rutgers University
  • Brian P. Hudson; Rutgers University
  • David S. Goodsell; Rutgers University
  • Jonathan K. Williams; Rutgers University
  • Maria Voigt; Rutgers University
  • Vidur Sarma; Rutgers University
  • Lingjun Xie; Rutgers University
  • Thejasvi Venkatachalam; Rutgers University
  • Steven Arnold; Rutgers University
  • Luz Helena Alfaro Alvarado; Grinnell College
  • Kevin Catalfano; University of Notre Dame
  • Aaliyah Khan; University of Maryland--Baltimore County
  • Erika McCarthy; Stevens Institute of Technology
  • Sophia Staggers; Frostburg State University
  • Brea Tinsley; Youngstown State University
  • Alan Trudeau; University of Central Florida
  • Jitendra Singh; New York City College of Technology
  • Lindsey Whitmore; Howard University
  • Helen Zheng; Watchung Hills Regional High School
  • Matthew Benedek; Xavier University
  • Jenna Currier; Hope College
  • Mark Dresel; Rutgers University
  • Ashish Duvvuru; Hope College
  • Britney Dyszel; Ursinus College
  • Emily Fingar; State University of New York--Oswego
  • Elizabeth M. Hennen; Roger Williams University
  • Michael Kirsch; State University of New York--Oswego
  • Ali A. Khan; State University of New York--Oswego
  • Charlotte Labrie-Cleary; State University of New York--Oswego
  • Stephanie Laporte; Brandeis University
  • Evan Lenkeit; Rutgers University
  • Kailey Martin; Ursinus College
  • Marilyn Orellana; Hope College
  • Melanie Ortiz-Alvarez de la Campa; University of Puerto Rico--Rio Piedras
  • Isaac Paredes; John Jay College
  • Baleigh Wheeler; Grand View University
  • Allison Rupert; Grand View University
  • Andrew Sam; Rutgers University
  • Katherine See; Rochester Institute of Technology
  • Santiago Soto Zapata; State University of New York--Oswego
  • Paul A. Craig; Rochester Institute of Technology
  • Bonnie L. Hall; Grand View University
  • Jennifer Jiang; Rutgers University
  • Julia R. Koeppe; State University of New York--Oswego
  • Stephen A. Mills; Xavier University
  • Michael J. Pikaart; Hope College
  • Rebecca Roberts; Ursinus College
  • Yana Bromberg; Rutgers University
  • J. Steen Hoyer; Rutgers University
  • Siobain Duffy; Rutgers University
  • Jay Tischfield; Rutgers University
  • Francesc X. Ruiz; Rutgers University
  • Eddy Arnold; Rutgers University
  • Jean Baum; Rutgers University
  • Jesse Sandberg; Rutgers University
  • Grace Brannigan; Rutgers University
  • Sagar D. Khare; Rutgers University
  • Stephen K. Burley; Rutgers University
Preprint in English | bioRxiv | ID: ppbiorxiv-406637
ABSTRACT
Three-dimensional structures of SARS-CoV-2 and other coronaviral proteins archived in the Protein Data Bank were used to analyze viral proteome evolution during the first six months of the COVID-19 pandemic. Analyses of spatial locations, chemical properties, and structural and energetic impacts of the observed amino acid changes in >48,000 viral proteome sequences showed how each one of the 29 viral study proteins have undergone amino acid changes. Structural models computed for every unique sequence variant revealed that most substitutions map to protein surfaces and boundary layers with a minority affecting hydrophobic cores. Conservative changes were observed more frequently in cores versus boundary layers/surfaces. Active sites and protein-protein interfaces showed modest numbers of substitutions. Energetics calculations showed that the impact of substitutions on the thermodynamic stability of the proteome follows a universal bi-Gaussian distribution. Detailed results are presented for six drug discovery targets and four structural proteins comprising the virion, highlighting substitutions with the potential to impact protein structure, enzyme activity, and functional interfaces. Characterizing the evolution of the virus in three dimensions provides testable insights into viral protein function and should aid in structure-based drug discovery efforts as well as the prospective identification of amino acid substitutions with potential for drug resistance.
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Full text: Available Collection: Preprints Database: bioRxiv Type of study: Observational study / Prognostic study Language: English Year: 2020 Document type: Preprint
Fulltext
Add to My VHL
Print
XML
Search on Google
Full text: Available Collection: Preprints Database: bioRxiv Type of study: Observational study / Prognostic study Language: English Year: 2020 Document type: Preprint