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Sawtell, N M (1998) The probability of in vivo reactivation of herpes simplex virus type 1 increases with the number of latently infected neurons in the ganglia. J Virol 72:6888-92
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Sawtell, N M; Poon, D K; Tansky, C S et al. (1998) The latent herpes simplex virus type 1 genome copy number in individual neurons is virus strain specific and correlates with reactivation. J Virol 72:5343-50
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Sawtell, N M (1997) Comprehensive quantification of herpes simplex virus latency at the single-cell level. J Virol 71:5423-31
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Thompson, R L; Sawtell, N M (1997) The herpes simplex virus type 1 latency-associated transcript gene regulates the establishment of latency. J Virol 71:5432-40
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Pyles, R B; Thompson, R L (1994) Mutations in accessory DNA replicating functions alter the relative mutation frequency of herpes simplex virus type 1 strains in cultured murine cells. J Virol 68:4514-24
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Pyles, R B; Thompson, R L (1994) Evidence that the herpes simplex virus type 1 uracil DNA glycosylase is required for efficient viral replication and latency in the murine nervous system. J Virol 68:4963-72
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Bolovan, C A; Sawtell, N M; Thompson, R L (1994) ICP34.5 mutants of herpes simplex virus type 1 strain 17syn+ are attenuated for neurovirulence in mice and for replication in confluent primary mouse embryo cell cultures. J Virol 68:48-55
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Sawtell, N M; Thompson, R L (1992) Rapid in vivo reactivation of herpes simplex virus in latently infected murine ganglionic neurons after transient hyperthermia. J Virol 66:2150-6
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Pyles, R B; Sawtell, N M; Thompson, R L (1992) Herpes simplex virus type 1 dUTPase mutants are attenuated for neurovirulence, neuroinvasiveness, and reactivation from latency. J Virol 66:6706-13
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Sawtell, N M; Thompson, R L (1992) Herpes simplex virus type 1 latency-associated transcription unit promotes anatomical site-dependent establishment and reactivation from latency. J Virol 66:2157-69
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