Deep mutational scanning identifies SARS-CoV-2 Nucleocapsid escape mutations of currently available rapid antigen tests. Frank et al

Published: 5 August 2022| Version 2 | DOI: 10.17632/g8tmby7psz.2
Contributor:
Filipp Frank

Description

Each antibody dataset is related to a specific reference dataset. Below are samples grouped with their specific reference datasets. Sample ID Sample Info 211116_3 N_Library4_Reference_01 211116_4 N_Library5_Reference_01 211116_5 N_Lib4_R040 211116_6 N_Lib5_R040 211215_1 N_Library5_Reference_02 211215_2 N05_R040 211215_3 N05_MM05 211215_6 N05_MM08 211215_7 N05_NAb3 220104_06 N_Lib05_Reference_03 220104_07 N05_C518 220104_08 N05_C524 220104_09 N05_C706 220104_12 N05_2F4 220104_13 N05_3C3 220215_29 N05_Reference_04 220215_02 N05_RC17602 220215_04 N05_RC17604 220215_06 N05_R004 220215_14 N05_1C1 220215_16 N05_1A7 220215_22 N05_mAb1 220215_24 N05_mAb2 220225_03 N05_Reference_05 220225_07 Ab166

Files

Steps to reproduce

Deep mutational scanning is employed to identify antibody escape mutations for the SARS-CoV-2 Nucleocapsid protein.

Institutions

Emory University

Categories

Biochemistry, Antibody, Diagnostics

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