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Full-Text Articles in Biochemistry, Biophysics, and Structural Biology
The Pseudorabies Virus Protein, Pul56, Enhances Virus Dissemination And Virulence But Is Dispensable For Axonal Transport, Gina R. Daniel, Patricia J. Sollars, Gary E. Pickard, Gregory A. Smith
The Pseudorabies Virus Protein, Pul56, Enhances Virus Dissemination And Virulence But Is Dispensable For Axonal Transport, Gina R. Daniel, Patricia J. Sollars, Gary E. Pickard, Gregory A. Smith
School of Veterinary and Biomedical Sciences: Faculty Publications
Neurotropic herpesviruses exit the peripheral nervous system and return to exposed body surfaces following reactivation from latency. The pUS9 protein is a critical viral effector of the anterograde axonal transport that underlies this process. We recently reported that while pUS9 increases the frequency of sorting of newly assembled pseudorabies virus particles to axons from the neural soma during egress, subsequent axonal transport of individual virus particles occurs with wild-type kinetics in the absence of the protein. Here, we examine the role of a related pseudorabies virus protein, pUL56, during neuronal infection. The findings indicate that pUL56 is a virulence factor …
New Tools To Convert Bacterial Artificial Chromosomes To A Self-Excising Design And Their Application To A Herpes Simplex Virus Type 1 Infectious Clone, Alexsia L. Richards, Patricia J. Sollars, Gregory A. Smith
New Tools To Convert Bacterial Artificial Chromosomes To A Self-Excising Design And Their Application To A Herpes Simplex Virus Type 1 Infectious Clone, Alexsia L. Richards, Patricia J. Sollars, Gregory A. Smith
School of Veterinary and Biomedical Sciences: Faculty Publications
Background: Infectious clones are fundamental tools for the study of many viruses, allowing for efficient mutagenesis and reproducible production of genetically-defined strains. For the large dsDNA genomes of the herpesviridae, bacterial artificial chromosomes have become the cloning vector of choice due to their capacity to house full-length herpesvirus genomes as single contiguous inserts. Furthermore, while maintained as plasmids in Escherichia coli, the clones can be mutated using robust prokaryotic recombination systems. An important consideration in the design of these clones is the means by which the vector backbone is removed from the virus genome upon delivery into mammalian cells. …
Dynamic Ubiquitination Drives Herpesvirus Neuroinvasion, Nicholas J. Huffmaster, Patricia J. Sollars, Alexsia L. Richards, Gary E. Pickard, Gregory A. Smith
Dynamic Ubiquitination Drives Herpesvirus Neuroinvasion, Nicholas J. Huffmaster, Patricia J. Sollars, Alexsia L. Richards, Gary E. Pickard, Gregory A. Smith
School of Veterinary and Biomedical Sciences: Faculty Publications
Neuroinvasive herpesviruses display a remarkable propensity to enter the nervous system of healthy individuals in the absence of obvious trauma at the site of inoculation. We document a repurposing of cellular ubiquitin during infection to switch the virus between two invasive states. The states act sequentially to defeat consecutive host barriers of the peripheral nervous system and together promote the potent neuroinvasive phenotype. The first state directs virus access to nerve endings in peripheral tissue, whereas the second delivers virus particles within nerve fibers to the neural ganglia. Mutant viruses locked in either state remain competent to overcome the corresponding …