Structural basis of an epitope tagging system derived from Haloarcula marismortui bacteriorhodopsin I D94N and its monoclonal antibody GD-26

Po Jung Pao, Min Feng Hsu, Ming Hui Chiang, Chun Ting Chen, Cheng Chung Lee, Andrew H.J. Wang

Research output: Contribution to journalArticlepeer-review

Abstract

Specific antibody interactions with short peptides have made epitope tagging systems a vital tool employed in virtually all fields of biological research. Here, we present a novel epitope tagging system comprised of a monoclonal antibody named GD-26, which recognises the TD peptide (GTGATPADD) derived from Haloarcula marismortui bacteriorhodopsin I (HmBRI) D94N mutant. The crystal structure of the antigen-binding fragment (Fab) of GD-26 complexed with the TD peptide was determined to a resolution of 1.45 Å. The TD peptide was found to adopt a 310 helix conformation within the binding cleft, providing a characteristic peptide structure for recognition by GD-26 Fab. Based on the structure information, polar and nonpolar forces collectively contribute to the strong binding. Attempts to engineer the TD peptide show that the proline residue is crucial for the formation of the 310 helix in order to fit into the binding cleft. Isothermal calorimetry (ITC) reported a dissociation constant KD of 12 ± 2.8 nm, indicating a strong interaction between the TD peptide and GD-26 Fab. High specificity of GD-26 IgG to the TD peptide was demonstrated by western blotting, ELISA and immunofluorescence as only TD-tagged proteins were detected, suggesting the effectiveness of the GD-26/TD peptide tagging system. In addition to already-existing epitope tags such as the FLAG tag and the ALFA tag adopting either extended or α-helix conformations, the unique 310 helix conformation of the TD peptide together with the corresponding monoclonal antibody GD-26 offers a novel tagging option for research.

Original languageEnglish
Pages (from-to)730-747
Number of pages18
JournalFEBS Journal
Volume289
Issue number3
DOIs
Publication statusPublished - Feb 2022
Externally publishedYes

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Biology
  • Cell Biology

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