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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

1996

English

Related publications

Studies on Herpetic Infection in Mice: Ii. The Pathways of Invasion of the Central Nervous System After Intranasal Instillation of Virus in Suckling Mice

Journal of Experimental Medicine

English

A Deletion at the UL/IR Junction Reduces Pseudorabies Virus Neurovirulence.

English

Vaccinia Virus Meningitis in Mice After Intracerebral Inoculation.

Infection and Immunity

English

An Inactivated gE-deleted Pseudorabies Vaccine Provides Complete Clinical Protection and Reduces Virus Shedding Against Challenge by a Chinese Pseudorabies Variant

BMC Veterinary Research

Medicine

Veterinary

2016

English

Effects of Truncation of the Carboxy Terminus of Pseudorabies Virus Glycoprotein B on Infectivity

English

Characterization of Pseudorabies Virus Glycoprotein B Expressed by Canine Herpesvirus.

Journal of Veterinary Medical Science

Veterinary

1999

English

Pseudorabies Virus Glycoprotein K Requires the UL20 Gene Product for Processing

English

Enhanced Intranasal Delivery of Gemcitabine to the Central Nervous System

English

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.

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by THOMAS C. METTENLEITER

Deletion of Glycoprotein gE Reduces the Propagation of Pseudorabies Virus in the Nervous System of Mice After Intranasal Inoculation

Related publications

Studies on Herpetic Infection in Mice: Ii. The Pathways of Invasion of the Central Nervous System After Intranasal Instillation of Virus in Suckling Mice

A Deletion at the UL/IR Junction Reduces Pseudorabies Virus Neurovirulence.

Vaccinia Virus Meningitis in Mice After Intracerebral Inoculation.

An Inactivated gE-deleted Pseudorabies Vaccine Provides Complete Clinical Protection and Reduces Virus Shedding Against Challenge by a Chinese Pseudorabies Variant

Effects of Truncation of the Carboxy Terminus of Pseudorabies Virus Glycoprotein B on Infectivity

Characterization of Pseudorabies Virus Glycoprotein B Expressed by Canine Herpesvirus.

Pseudorabies Virus Glycoprotein K Requires the UL20 Gene Product for Processing

Enhanced Intranasal Delivery of Gemcitabine to the Central Nervous System

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.