Marius Boicu scite author profile

At each round of infection, viruses fall apart to release their genome for replication, and then reassemble into stable particles within the same host cell. For most viruses, the structural details that underlie these disassembly and assembly reactions are poorly understood. Cryo-electron tomography (cryo-ET), a unique method to investigate large and asymmetric structures at the near molecular resolution, was previously used to study the complex structure of vaccinia virus (VV). Here we study the disassembly of VV by cryo-ET on intact, rapidly frozen, mammalian cells, infected for up to 60 minutes. Binding to the cell surface induced distinct structural rearrangements of the core, such as a shape change, the rearrangement of its surface spikes and de-condensation of the viral DNA. We propose that the cell surface induced changes, in particular the decondensation of the viral genome, are a prerequisite for the subsequent release of the vaccinia DNA into the cytoplasm, which is followed by its cytoplasmic replication. Generally, this is the first study that employs whole cell cryo-ET to address structural details of pathogen-host cell interaction.

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Blotting protein complexes from native gels to electron microscopy grids

Knispel

Kofler

Boicu

et al. 2012

Nat Methods

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We report a simple and generic method for the direct transfer of protein complexes separated by native gel electrophoresis to electron microscopy grids. After transfer, sufficient material remains in the gel for identification and characterization by mass spectrometry. The method should facilitate higher-throughput single-particle analysis by substantially reducing the time needed for protein purification, as demonstrated for three complexes from Thermoplasma acidophilum.

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Protein complex purification from Thermoplasma acidophilum using a phage display library

Hubert

Mitani

Tamura

et al. 2014

Journal of Microbiological Methods

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Crystal Structure of Paprika Ferredoxin-NADP+Reductase

Dorowski

Hofmann

Steegborn

et al. 2001

Journal of Biological Chemistry

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cDNA of Capsicum annuum Yolo Wonder (paprika) has been prepared from total cellular RNA, and the complete gene encoding paprika ferredoxin-NADP ؉ reductase (pFNR) precursor was sequenced and cloned from this cDNA. Fusion to a T7 promoter allowed expression in Escherichia coli. Both native and recombinant pFNR were purified to homogeneity and crystallized. The crystal structure of pFNR has been solved by Patterson search techniques using the structure of spinach ferredoxin-NADP ؉ reductase as search model. The structure was refined at 2.5-Å resolution to a crystallographic Rfactor of 19.8% (R free ‫؍‬ 26.5%). The overall structure of pFNR is similar to other members of the ferredoxin-NADP ؉ reductase family, the major differences concern a long loop (residues 167-177) that forms part of the FAD binding site and some of the variable loops in surface regions. The different orientation of the FAD binding loop leads to a tighter interaction between pFNR and the adenine moiety of FAD. The physiological redox partners [2Fe-2S]-ferredoxin I and NADP ؉ were modeled into the native structure of pFNR. The complexes reveal a protein-protein interaction site that is consistent with existing biochemical data and imply possible orientations for the side chain of tyrosine 362, which has to be displaced by the nicotinamide moiety of NADP ؉ upon binding. A reasonable electron transfer pathway could be deduced from the modeled structures of the complexes.

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Marius Boicu

Whole Cell Cryo-Electron Tomography Reveals Distinct Disassembly Intermediates of Vaccinia Virus

Blotting protein complexes from native gels to electron microscopy grids

Protein complex purification from Thermoplasma acidophilum using a phage display library

Crystal Structure of Paprika Ferredoxin-NADP+Reductase

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