Author: Porter, Lauren L.
Title: Predictable fold switching by the SARSâ€CoVâ€2 protein ORF9b Cord-id: 6z5maeo9 Document date: 2021_5_10
ID: 6z5maeo9
Snippet: Extant foldâ€switching proteins remodel their secondary structures and change their functions in response to environmental stimuli. These shapeshifting proteins regulate biological processes and are associated with a number of diseases, including tuberculosis, cancer, Alzheimer's, and autoimmune disorders. Thus, predictive methods are needed to identify more foldâ€switching proteins, especially since all naturally occurring instances have been discovered by chance. In response to this need, tw
Document: Extant foldâ€switching proteins remodel their secondary structures and change their functions in response to environmental stimuli. These shapeshifting proteins regulate biological processes and are associated with a number of diseases, including tuberculosis, cancer, Alzheimer's, and autoimmune disorders. Thus, predictive methods are needed to identify more foldâ€switching proteins, especially since all naturally occurring instances have been discovered by chance. In response to this need, two highâ€throughput predictive methods have recently been developed. Here we test them on ORF9b, a newly discovered fold switcher and potential therapeutic target from the Severe Acute Respiratory Syndrome Coronavirus 2 (SARSâ€CoVâ€2). Promisingly, both methods correctly indicate that ORF9b switches folds. We then tested the same two methods on ORF9b1, the ORF9b homolog from SARSâ€CoVâ€1. Again, both methods predict that ORF9b1 switches folds, a finding consistent with experimental binding studies. Together, these results (a) demonstrate that protein fold switching can be predicted using highâ€throughput computational approaches and (b) suggest that fold switching might be a general characteristic of ORF9b homologs.
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