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Publications by THOMAS C. METTENLEITER
Deletion of Glycoprotein gE Reduces the Propagation of Pseudorabies Virus in the Nervous System of Mice After Intranasal Inoculation
Virology
Virology
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Studies on Herpetic Infection in Mice: Ii. The Pathways of Invasion of the Central Nervous System After Intranasal Instillation of Virus in Suckling Mice
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A Deletion at the UL/IR Junction Reduces Pseudorabies Virus Neurovirulence.
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Vaccinia Virus Meningitis in Mice After Intracerebral Inoculation.
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An Inactivated gE-deleted Pseudorabies Vaccine Provides Complete Clinical Protection and Reduces Virus Shedding Against Challenge by a Chinese Pseudorabies Variant
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Effects of Truncation of the Carboxy Terminus of Pseudorabies Virus Glycoprotein B on Infectivity
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Characterization of Pseudorabies Virus Glycoprotein B Expressed by Canine Herpesvirus.
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Pseudorabies Virus Glycoprotein K Requires the UL20 Gene Product for Processing
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Enhanced Intranasal Delivery of Gemcitabine to the Central Nervous System
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Glycoprotein D-Negative Pseudorabies Virus Can Spread Transneuronally via Direct Neuron-To-Neuron Transmission in Its Natural Host, the Pig, but Not After Additional Inactivation of gE or gI.
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