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Nanoscale Polarization of the Vaccinia Virus Entry Fusion Complex Drives Efficient Fusion

Robert D. M. Gray, David Albrecht, Corina Beerli, Gary H. Cohen, View ORCID ProfileRicardo Henriques, View ORCID ProfileJason Mercer
doi: https://doi.org/10.1101/360073
Robert D. M. Gray
1MRC-Laboratory for Molecular Cell Biology. University College London, London, UK
2Centre for Mathematics and Physics in Life Science and Experimental Biology (CoMPLEX), University College London, London, UK
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David Albrecht
1MRC-Laboratory for Molecular Cell Biology. University College London, London, UK
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Corina Beerli
1MRC-Laboratory for Molecular Cell Biology. University College London, London, UK
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Gary H. Cohen
3Department of Microbiology, School of Dental Medicine, University of Pennsylvania, Philadelphia, PA, USA
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Ricardo Henriques
1MRC-Laboratory for Molecular Cell Biology. University College London, London, UK
4The Francis Crick Institute, London, UK
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  • For correspondence: jason.mercer@ucl.ac.uk r.henriques@ucl.ac.uk
Jason Mercer
1MRC-Laboratory for Molecular Cell Biology. University College London, London, UK
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  • ORCID record for Jason Mercer
  • For correspondence: jason.mercer@ucl.ac.uk r.henriques@ucl.ac.uk
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Posted July 01, 2018.
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Nanoscale Polarization of the Vaccinia Virus Entry Fusion Complex Drives Efficient Fusion
Robert D. M. Gray, David Albrecht, Corina Beerli, Gary H. Cohen, Ricardo Henriques, Jason Mercer
bioRxiv 360073; doi: https://doi.org/10.1101/360073
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Nanoscale Polarization of the Vaccinia Virus Entry Fusion Complex Drives Efficient Fusion
Robert D. M. Gray, David Albrecht, Corina Beerli, Gary H. Cohen, Ricardo Henriques, Jason Mercer
bioRxiv 360073; doi: https://doi.org/10.1101/360073

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