MacGowan, S. A., Barton, M. I., Kutuzov, M., Dushek, O., Merwe, P. A. v. d., & Barton, G. J. Missense variants in human ACE2 strongly affect binding to SARS-CoV-2 Spike providing a mechanism for ACE2 mediated genetic risk in Covid-19: A case study in affinity predictions of interface variants. Public Library of Science (PLoS).
Chicago Style (17th ed.) CitationMacGowan, Stuart A., Michael I. Barton, Mikhail Kutuzov, Omer Dushek, P Anton van der Merwe, and Geoffrey J. Barton. Missense Variants in Human ACE2 Strongly Affect Binding to SARS-CoV-2 Spike Providing a Mechanism for ACE2 Mediated Genetic Risk in Covid-19: A Case Study in Affinity Predictions of Interface Variants. Public Library of Science (PLoS).
MLA (9th ed.) CitationMacGowan, Stuart A., et al. Missense Variants in Human ACE2 Strongly Affect Binding to SARS-CoV-2 Spike Providing a Mechanism for ACE2 Mediated Genetic Risk in Covid-19: A Case Study in Affinity Predictions of Interface Variants. Public Library of Science (PLoS).