scholarly article | Q13442814 |
P819 | ADS bibcode | 2001PNAS...98.3466S |
P356 | DOI | 10.1073/PNAS.061029798 |
P932 | PMC publication ID | 30676 |
P698 | PubMed publication ID | 11248101 |
P5875 | ResearchGate publication ID | 12084480 |
P2093 | author name string | Smith GA | |
Enquist LW | |||
Gross SP | |||
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Distribution and possible interactions of actin-associated proteins and cell adhesion molecules of nerve growth cones | Q41286187 | ||
Pseudorabies virus displays variable numbers of a repeat unit adjacent to the 3' end of the glycoprotein gII gene | Q45845823 | ||
Infection and spread of alphaherpesviruses in the nervous system | Q77802801 | ||
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P1104 | number of pages | 5 | |
P304 | page(s) | 3466-3470 | |
P577 | publication date | 2001-03-01 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Herpesviruses use bidirectional fast-axonal transport to spread in sensory neurons | |
P478 | volume | 98 |
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Q30501720 | Anterograde transport of herpes simplex virus capsids in neurons by both separate and married mechanisms |
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Q39637899 | Completely assembled virus particles detected by transmission electron microscopy in proximal and mid-axons of neurons infected with herpes simplex virus type 1, herpes simplex virus type 2 and pseudorabies virus |
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Q30475975 | Cytoskeletal rearrangements and cell extensions induced by the US3 kinase of an alphaherpesvirus are associated with enhanced spread |
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Q36799017 | Differential protein partitioning within the herpesvirus tegument and envelope underlies a complex and variable virion architecture |
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Q36807145 | Directional spread of alphaherpesviruses in the nervous system |
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Q59358848 | Dissecting the Herpesvirus Architecture by Targeted Proteolysis |
Q43099615 | Drosophila Miro is required for both anterograde and retrograde axonal mitochondrial transport. |
Q38748771 | Dual-color Herpesvirus Capsids Discriminate Inoculum from Progeny and Reveal Axonal Transport Dynamics |
Q30445612 | Eclipse phase of herpes simplex virus type 1 infection: Efficient dynein-mediated capsid transport without the small capsid protein VP26. |
Q33883916 | Efficient axonal localization of alphaherpesvirus structural proteins in cultured sympathetic neurons requires viral glycoprotein E. |
Q24631068 | Efficient retrograde transport of pseudorabies virus within neurons requires local protein synthesis in axons |
Q57393693 | Engineered networks of oriented microtubule filaments for directed cargo transport |
Q30538684 | Fast anterograde transport of herpes simplex virus: role for the amyloid precursor protein of alzheimer's disease |
Q47797010 | Fast vesicle transport in PC12 neurites: velocities and forces |
Q26866437 | Fluorescent Protein Approaches in Alpha Herpesvirus Research |
Q38123692 | Fluorosomes: fluorescent virus-like nanoparticles that represent a convenient tool to visualize receptor-ligand interactions |
Q30453354 | Function of dynein and dynactin in herpes simplex virus capsid transport |
Q35960483 | Fusion of a fluorescent protein to the pUL25 minor capsid protein of pseudorabies virus allows live-cell capsid imaging with negligible impact on infection |
Q41993011 | Genetic and molecular in vivo analysis of herpes simplex virus assembly in murine visual system neurons |
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Q37123566 | Glycoproteins gE and gI are required for efficient KIF1A-dependent anterograde axonal transport of alphaherpesvirus particles in neurons. |
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Q38692321 | Herpes Simplex Virus 1 Small Capsomere-Interacting Protein VP26 Regulates Nucleocapsid Maturation |
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Q30478299 | Herpes simplex virus capsids are transported in neuronal axons without an envelope containing the viral glycoproteins |
Q36949649 | Herpes simplex virus gE/gI and US9 proteins promote transport of both capsids and virion glycoproteins in neuronal axons |
Q34333855 | Herpes simplex virus tegument protein US11 interacts with conventional kinesin heavy chain. |
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Q37099692 | Herpesvirus interactions with the host cytoskeleton |
Q35714830 | Herpesvirus replication compartments originate with single incoming viral genomes. |
Q37438944 | Herpesvirus transport to the nervous system and back again. |
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Q41056135 | Human cytomegalovirus labeled with green fluorescent protein for live analysis of intracellular particle movements |
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Q36936297 | Imaging the transport dynamics of single alphaherpesvirus particles in intact peripheral nervous system explants from infected mice |
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Q28483224 | Improper tagging of the non-essential small capsid protein VP26 impairs nuclear capsid egress of herpes simplex virus |
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Q39753109 | In vivo egress of an alphaherpesvirus from axons |
Q55260609 | Infection and Transport of Herpes Simplex Virus Type 1 in Neurons: Role of the Cytoskeleton. |
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Q28771328 | Kinesin-3 mediates axonal sorting and directional transport of alphaherpesvirus particles in neurons |
Q45349105 | Letter in response to: Making the case: Married versus Separate models of alphaherpes virus anterograde transport in axons. |
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Q30837157 | Local modulation of plus-end transport targets herpesvirus entry and egress in sensory axons |
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Q39375624 | Nuclear egress of pseudorabies virus capsids is enhanced by a subspecies of the large tegument protein that is lost upon cytoplasmic maturation |
Q38348401 | Nucleolin is required for efficient nuclear egress of herpes simplex virus type 1 nucleocapsids |
Q30495017 | On the use of in vivo cargo velocity as a biophysical marker |
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Q33632158 | Plus- and minus-end directed microtubule motors bind simultaneously to herpes simplex virus capsids using different inner tegument structures |
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