E.A. Hewat scite author profile

Rotaviruses are large, complex icosahedral particles consisting of three concentric capsid layers. When the innermost capsid protein VP2 is expressed in the baculovirus-insect cell system it assembles as core-like particles. The amino terminus region of VP2 is dispensable for assembly of virus-like particles (VLP). Coexpression of VP2 and VP6 produces double layered VLP. We hypothesized that the amino end of VP2 could be extended without altering the auto assembly properties of VP2. Using the green fluorescent protein (GFP) or the DsRed protein as model inserts we have shown that the chimeric protein GFP (or DsRed)-VP2 auto assembles perfectly well and forms fluorescent VLP (GFP-VLP2/6 or DsRed-VLP2/6) when coexpressed with VP6. The presence of GFP inside the core does not prevent the assembly of the outer capsid layer proteins VP7 and VP4 to give VLP2/6/7/4. Cryo-electron microscopy of purified GFP-VLP2/6 showed that GFP molecules are located at the 5-fold vertices of the core. It is possible to visualize a single fluorescent VLP in living cells by confocal fluorescent microscopy. In vitro VLP2/6 did not enter into permissive cells or in dendritic cells. In contrast, fluorescent VLP2/6/7/4 entered the cells and then the fluorescence signal disappear rapidly. Presented data indicate that fluorescent VLP are interesting tools to follow in real time the entry process of rotavirus and that chimeric VLP could be envisaged as "nanoboxes" carrying macromolecules to living cells.

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Structure of a neutralizing antibody bound bivalently to human rhinovirus 2.

Hewat

Blaas

1996

The EMBO Journal

123

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The structure of a complex between human rhinovirus serotype 2 (HRV2) and the weakly neutralizing monoclonal antibody 8F5 has been determined to 25 A resolution by cryo‐electron microscopy and 3‐D reconstruction techniques. THe antibody is seen to be bound bivalently across the icosahedral 2‐fold axis, despite the very short distance of 60 A between the symmetry‐related epitopes. The canyon around the 5‐fold axis is not obstructed. Due to extreme flexibility of the hinge region the Fc domains occupy random orientations and are not visible in the reconstruction. The atomic coordinates of Fab‐8F5 complexes with a synthetic peptide derived from the viral protein 2 (VP2) epitope were fitted to the structure obtained by cryo‐electron microscope techniques. The X‐ray structure of HRV2 is not unknown, so that of the closely related HRV1A was placed in the electron microscopic density map. The footprint of 8F5 on the viral surface is largely on VP2, but also covers the VP3 loop centred on residue 3060. C alpha atoms of VP1 and 8F5 come no closer than 10 A. Based on the fit of the X‐ray coordinates to the electron microscope data, the synthetic 15mer peptide starts and ends in close proximity to the corresponding amino acids of VP2 on HRV1A. However, the respective loops diverge considerably in their overall spatial disposition. It appears from this study that bivalent binding of an antibody directed against a picornavirus exists for a smaller spanning distance than was previously thought possible. Also bivalent binding does not ensure strong neutralization.

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The cellular receptor to human rhinovirus 2 binds around the 5-fold axis and not in the canyon: a structural view

Hewat

2000

131

115

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Human rhinovirus serotype 2 (HRV2) belongs to the minor group of HRVs that bind to members of the LDL-receptor family including the very low density lipoprotein (VLDL)-receptor (VLDL-R). We have determined the structures of the complex between HRV2 and soluble fragments of the VLDL-R to 15 A Ê resolution by cryo-electron microscopy. The receptor fragments, which include the ®rst three ligand-binding repeats of the VLDL-R (V1±3), bind to the small star-shaped dome on the icosahedral 5-fold axis. This is in sharp contrast to the major group of HRVs where the receptor site for ICAM-1 is located at the base of a depression around each 5-fold axis. Homology models of the three domains of V1±3 were used to explore the virus±receptor interaction. The footprint of VLDL-R on the viral surface covers the BC-and HI-loops on VP1.

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E.A. Hewat

Structural anomalies, oxygen ordering and superconductivity in oxygen deficient Ba2YCu3Ox

Individual Rotavirus-like Particles Containing 120 Molecules of Fluorescent Protein Are Visible in Living Cells

Structure of a neutralizing antibody bound bivalently to human rhinovirus 2.

The cellular receptor to human rhinovirus 2 binds around the 5-fold axis and not in the canyon: a structural view

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