Edward K. Wagner mainly focuses on Herpes simplex virus, Virology, Virus, Molecular biology and Transcription. He interconnects Gene expression and Gene in the investigation of issues within Herpes simplex virus. In his research, Entorhinal cortex is intimately related to RNA, which falls under the overarching field of Gene expression.
His Virology study incorporates themes from Nucleic acid thermodynamics, In situ hybridization and Intron. He mostly deals with Herpesviridae in his studies of Virus. His Molecular biology research is multidisciplinary, incorporating elements of Polyadenylation, Messenger RNA, Northern blot, Mutant and Base pair.
His main research concerns Herpes simplex virus, Molecular biology, Virology, Virus and Transcription. He has researched Herpes simplex virus in several fields, including Promoter, Gene expression, Gene and Viral replication. His work deals with themes such as Recombinant DNA, RNA, DNA, Reporter gene and Messenger RNA, which intersect with Molecular biology.
His Virology research integrates issues from RNA splicing and Intron. His work in Virus covers topics such as DNA replication which are related to areas like Plasmid. The various areas that Edward K. Wagner examines in his Transcription study include In vivo and Reading frame.
His primary areas of study are Herpes simplex virus, Virology, Molecular biology, Genetics and Gene expression. Virus covers Edward K. Wagner research in Herpes simplex virus. His Virus latency study in the realm of Virology interacts with subjects such as Trigeminal ganglion and Latency.
His research integrates issues of Mutant, Gene, Multiplicity of infection and Recombinant DNA in his study of Molecular biology. The Viral replication study combines topics in areas such as Herpesviridae and Virulence. His studies in RNA integrate themes in fields like Entorhinal cortex, Hippocampus, Memory consolidation and Neuroscience.
Edward K. Wagner focuses on Herpes simplex virus, Molecular biology, Mutant, Transcription and Gene expression. Virus and Virology are inextricably linked to his Herpes simplex virus research. As part of his studies on Molecular biology, Edward K. Wagner often connects relevant areas like Gene.
Edward K. Wagner usually deals with Transcription and limits it to topics linked to DNA microarray and Regulator gene and Microarray analysis techniques. His Gene expression research is multidisciplinary, incorporating perspectives in RNA and Memory consolidation. His Immediate early protein research incorporates themes from Hippocampus, Entorhinal cortex and Neuroscience.
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RNA complementary to a herpesvirus alpha gene mRNA is prominent in latently infected neurons.
JG Stevens;EK Wagner;GB Devi-Rao;ML Cook.
Experience-dependent gene expression in the rat hippocampus after spatial learning: a comparison of the immediate-early genes Arc, c-fos, and zif268.
John F. Guzowski;Barry Setlow;Edward K. Wagner;James L. McGaugh.
The Journal of Neuroscience (2001)
Experimental investigation of herpes simplex virus latency.
Edward K. Wagner;David C. Bloom.
Clinical Microbiology Reviews (1997)
Herpes simplex virus latent phase transcription facilitates in vivo reactivation.
James M. Hill;Farhad Sedarati;Ronald T. Javier;Edward K. Wagner.
Physical characterization of the herpes simplex virus latency-associated transcript in neurons.
E K Wagner;G Devi-Rao;L T Feldman;A T Dobson.
Journal of Virology (1988)
Individual HSV Transcripts
Edward K. Wagner.
A herpes simplex virus transcript abundant in latently infected neurons is dispensable for for establishment of the latent state
Ronald T. Javier;Jack G. Stevens;Vivian B. Dissette;Edward K. Wagner.
Viral DNA synthesis is required for the efficient expression of specific herpes simplex virus type 1 mRNA species.
Louis E. Holland;Kevin P. Anderson;Charles Shipman;Edward K. Wagner.
Global Analysis of Herpes Simplex Virus Type 1 Transcription Using an Oligonucleotide-Based DNA Microarray
S. W. Stingley;J. J. G. Ramirez;S. A. Aguilar;K. Simmen.
Journal of Virology (2000)
The herpes simplex virus latency-associated transcript is spliced during the latent phase of infection.
E K Wagner;W M Flanagan;G Devi-Rao;Y F Zhang.
Journal of Virology (1988)
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