Trevor Huyton scite author profile

The recognition of human leukocyte antigen (HLA)-E by the heterodimeric CD94-NKG2 natural killer (NK) receptor family is a central innate mechanism by which NK cells monitor the expression of other HLA molecules, yet the structural basis of this highly specifi c interaction is unclear. Here, we describe the crystal structure of CD94-NKG2A in complex with HLA-E bound to a peptide derived from the leader sequence of HLA-G. The CD94 subunit dominated the interaction with HLA-E, whereas the NKG2A subunit was more peripheral to the interface. Moreover, the invariant CD94 subunit dominated the peptidemediated contacts, albeit with poor surface and chemical complementarity. This unusual binding mode was consistent with mutagenesis data at the CD94-NKG2A -HLA-E interface. There were few conformational changes in either CD94-NKG2A or HLA-E upon ligation, and such a " lock and key " interaction is typical of innate receptor -ligand interactions. Nevertheless, the structure also provided insight into how this interaction can be modulated by subtle changes in the peptide ligand or by the pairing of CD94 with other members of the NKG2 family. Differences in the docking strategies used by the NKG2D and CD94-NKG2A receptors provided a basis for understanding the promiscuous nature of ligand recognition by NKG2D compared with the fi delity of the CD94-NKG2 receptors.on

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Surface Properties Determining Passage Rates of Proteins through Nuclear Pores

Frey

Rees

Schünemann

et al. 2018

Cell

139

184

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Nuclear pore complexes (NPCs) conduct nucleocytoplasmic transport through an FG domain-controlled barrier. We now explore how surface-features of a mobile species determine its NPC passage rate. Negative charges and lysines impede passage. Hydrophobic residues, certain polar residues (Cys, His), and, surprisingly, charged arginines have striking translocation-promoting effects. Favorable cation-π interactions between arginines and FG-phenylalanines may explain this apparent paradox. Application of these principles to redesign the surface of GFP resulted in variants that show a wide span of transit rates, ranging from 35-fold slower than wild-type to ∼500 times faster, with the latter outpacing even naturally occurring nuclear transport receptors (NTRs). The structure of a fast and particularly FG-specific GFP variant illustrates how NTRs can expose multiple regions for binding hydrophobic FG motifs while evading non-specific aggregation. Finally, we document that even for NTR-mediated transport, the surface-properties of the "passively carried" cargo can strikingly affect the translocation rate.

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The crystal structure of murine p97/VCP at 3.6Å

Huyton

Pye

Briggs

et al. 2003

Journal of Structural Biology

171

180

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The BRCA1 C-terminal domain: structure and function

Huyton

Bates

Zhang

et al. 2000

Mutation Research/DNA Repair

141

113

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Trevor Huyton

CD94-NKG2A recognition of human leukocyte antigen (HLA)-E bound to an HLA class I leader sequence

Surface Properties Determining Passage Rates of Proteins through Nuclear Pores

The crystal structure of murine p97/VCP at 3.6Å

The BRCA1 C-terminal domain: structure and function

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