Crystal Structure of the Human, FIC-Domain Containing Protein HYPE and Implications for Its Functions
Copyright policy )Crystal Structure of the Human, FIC-Domain Containing Protein HYPE and Implications for Its Functions
Protein AMPylation, the transfer of AMP from ATP to protein targets, has been recognized as a new mechanism of host-cell disruption by some bacterial effectors that typically contain a FIC-domain. Eukaryotic genomes also encode one FIC-domain protein,HYPE, which has remained poorly characterized.Here we describe the structure of human HYPE, solved by X-ray crystallography, representing the first structure of a eukaryotic FIC-domain protein. We demonstrate that HYPE forms stable dimers with structurally and functionally integrated FIC-domains and with TPR-motifs exposed for protein-protein interactions. As HYPE also uniquely possesses a transmembrane helix, dimerization is likely to affect its positioning and function in the membrane vicinity. The low rate of auto AMPylation of the wild-type HYPE could be due to autoinhibition, consistent with the mechanism proposed for a number of putative FIC AMPylators. Our findings also provide a basis to further consider possible alternative cofactors of HYPE and distinct modes of target-recognition.
- Imperial College of London - Department of Chemistry
- IMPERIAL COLLEGE OF SCIENCE TECHNOLOGY AND MEDICINE United Kingdom
- Institute of Structural and Molecular Biology, University College London, London, UK United Kingdom
- University College London United Kingdom
- UNIVERSITY COLLEGE LONDON, Bartlett School of Planning United Kingdom
Models, Molecular, Biochemistry & Molecular Biology, Protein Conformation, TPR domain, Biophysics, Adenylylation, bcs, Crystallography, X-Ray, Article, Structure-Activity Relationship, Structural Biology, Humans, Amplyation, Molecular Biology, Science & Technology, Tetratricopeptide repeat, Membrane Proteins, Cell Biology, Posttranslational modification (PTM), Nucleotidyltransferases, 620, Protein Structure, Tertiary, Carrier Proteins, Life Sciences & Biomedicine
Models, Molecular, Biochemistry & Molecular Biology, Protein Conformation, TPR domain, Biophysics, Adenylylation, bcs, Crystallography, X-Ray, Article, Structure-Activity Relationship, Structural Biology, Humans, Amplyation, Molecular Biology, Science & Technology, Tetratricopeptide repeat, Membrane Proteins, Cell Biology, Posttranslational modification (PTM), Nucleotidyltransferases, 620, Protein Structure, Tertiary, Carrier Proteins, Life Sciences & Biomedicine
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