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Items: 40

1.
2.

Problems in the use of herpes simplex virus as a vector.

Feldman LT.

Int Rev Neurobiol. 2003;55:99-109. Review. No abstract available.

PMID:
12968532
3.

Spontaneous molecular reactivation of herpes simplex virus type 1 latency in mice.

Feldman LT, Ellison AR, Voytek CC, Yang L, Krause P, Margolis TP.

Proc Natl Acad Sci U S A. 2002 Jan 22;99(2):978-83. Epub 2002 Jan 2.

4.
6.

Herpes simplex virus latency and the immune response.

Daheshia M, Feldman LT, Rouse BT.

Curr Opin Microbiol. 1998 Aug;1(4):430-5. Review.

PMID:
10066506
8.

The POU-domain factor Brn-3.0 recognizes characteristic sites in the herpes simplex virus genome.

Turner EE, Rhee JM, Feldman LT.

Nucleic Acids Res. 1997 Jul 1;25(13):2589-94.

9.

Expression of the lacZ reporter gene in the rat basal forebrain, hippocampus, and nigrostriatal pathway using a nonreplicating herpes simplex vector.

Maidment NT, Tan AM, Bloom DC, Anton B, Feldman LT, Stevens JG.

Exp Neurol. 1996 May;139(1):107-14.

PMID:
8635556
10.

A 348-base-pair region in the latency-associated transcript facilitates herpes simplex virus type 1 reactivation.

Bloom DC, Hill JM, Devi-Rao G, Wagner EK, Feldman LT, Stevens JG.

J Virol. 1996 Apr;70(4):2449-59.

11.

Targeting and gene expression in spinal cord motor neurons following intramuscular inoculation of an HSV-1 vector.

Keir SD, Mitchell WJ, Feldman LT, Martin JR.

J Neurovirol. 1995 Sep;1(3-4):259-67.

PMID:
9222364
12.

Long-term expression of a reporter gene from latent herpes simplex virus in the rat hippocampus.

Bloom DC, Maidment NT, Tan A, Dissette VB, Feldman LT, Stevens JG.

Brain Res Mol Brain Res. 1995 Jul;31(1-2):48-60.

PMID:
7476033
13.

In vivo deletion analysis of the herpes simplex virus type 1 latency-associated transcript promoter.

Dobson AT, Margolis TP, Gomes WA, Feldman LT.

J Virol. 1995 Apr;69(4):2264-70.

14.

Long-term promoter activity during herpes simplex virus latency.

Lokensgard JR, Bloom DC, Dobson AT, Feldman LT.

J Virol. 1994 Nov;68(11):7148-58.

16.

Long-term expression of genes in vivo using non-replicating HSV vectors.

Bloom DC, Lokensgard JR, Maidment NT, Feldman LT, Stevens JG.

Gene Ther. 1994;1 Suppl 1:S36-8. No abstract available.

PMID:
8542391
17.

Decreased reporter gene expression during latent infection with HSV LAT promoter constructs.

Margolis TP, Bloom DC, Dobson AT, Feldman LT, Stevens JG.

Virology. 1993 Dec;197(2):585-92.

PMID:
8249281
18.

An HSV-1 mutant lacking the LAT TATA element reactivates normally in explant cocultivation.

Deshmane SL, Nicosia M, Valyi-Nagy T, Feldman LT, Dillner A, Fraser NW.

Virology. 1993 Oct;196(2):868-72.

PMID:
8396815
19.

The herpes simplex virus type 1 reactivation function lies outside the latency-associated transcript open reading frame ORF-2.

Farrell MJ, Hill JM, Margolis TP, Stevens JG, Wagner EK, Feldman LT.

J Virol. 1993 Jun;67(6):3653-5.

20.

Pathways of viral gene expression during acute neuronal infection with HSV-1.

Margolis TP, Sedarati F, Dobson AT, Feldman LT, Stevens JG.

Virology. 1992 Jul;189(1):150-60.

PMID:
1604806
21.

Herpes simplex virus latency-associated transcript is a stable intron.

Farrell MJ, Dobson AT, Feldman LT.

Proc Natl Acad Sci U S A. 1991 Feb 1;88(3):790-4.

22.

A latent, nonpathogenic HSV-1-derived vector stably expresses beta-galactosidase in mouse neurons.

Dobson AT, Margolis TP, Sedarati F, Stevens JG, Feldman LT.

Neuron. 1990 Sep;5(3):353-60.

PMID:
2169271
23.
24.

Physical characterization of the herpes simplex virus latency-associated transcript in neurons.

Wagner EK, Devi-Rao G, Feldman LT, Dobson AT, Zhang YF, Flanagan WM, Stevens JG.

J Virol. 1988 Apr;62(4):1194-202.

25.

Binding of the pseudorabies virus immediate-early protein to single-stranded DNA.

Chlan CA, Coulter C, Feldman LT.

J Virol. 1987 Jun;61(6):1855-60.

28.

RNA complementary to a herpesvirus alpha gene mRNA is prominent in latently infected neurons.

Stevens JG, Wagner EK, Devi-Rao GB, Cook ML, Feldman LT.

Science. 1987 Feb 27;235(4792):1056-9.

PMID:
2434993
30.

Transcription of class III genes activated by viral immediate early proteins.

Gaynor RB, Feldman LT, Berk AJ.

Science. 1985 Oct 25;230(4724):447-50.

PMID:
2996135
31.
32.

Common control of the heat shock gene and early adenovirus genes: evidence for a cellular E1A-like activity.

Imperiale MJ, Kao HT, Feldman LT, Nevins JR, Strickland S.

Mol Cell Biol. 1984 May;4(5):867-74.

33.

Role of the adenovirus transforming gene (E1A) in the general control of gene expression.

Nevins JR, Imperiale MJ, Feldman LT, Kao HT.

Transplant Proc. 1984 Apr;16(2):438-40. No abstract available.

PMID:
6719547
34.

Detection of an adenovirus E1A-like activity in mammalian cells.

Nevins JR, Imperiale MJ, Kao HT, Strickland S, Feldman LT.

Curr Top Microbiol Immunol. 1984;113:15-9. No abstract available.

PMID:
6332713
36.

Effect of adenovirus on metabolism of specific host mRNAs: transport control and specific translational discrimination.

Babich A, Feldman LT, Nevins JR, Darnell JE Jr, Weinberger C.

Mol Cell Biol. 1983 Jul;3(7):1212-21.

38.
39.

Control of abundance of immediate-early mRNA in herpesvirus (pseudorabies)-infected cells.

Feldman LT, Demarchi JM, Ben-Porat T, Kaplan AS.

Virology. 1982 Jan 15;116(1):250-63. No abstract available.

PMID:
6278710

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