His scientific interests lie mostly in Virology, Gene, microRNA, Virus and RNA. His Virology research is mostly focused on the topic Virus latency. His work is dedicated to discovering how Gene, Molecular biology are connected with Messenger RNA, In situ hybridization, Keratinocyte, Stem cell and In vivo and other disciplines.
His biological study spans a wide range of topics, including Microarray, DNA microarray, Gene expression, Regulation of gene expression and Oligonucleotide. His Virus research includes themes of Cell cycle, Long terminal repeat, Virus Integration and Provirus. His study looks at the relationship between RNA and fields such as Genome, as well as how they intersect with chemical problems.
His primary areas of investigation include Virology, Virus, Genetics, Gene and Genome. His study in Virology is interdisciplinary in nature, drawing from both RNA and Cell culture. His work focuses on many connections between RNA and other disciplines, such as microRNA, that overlap with his field of interest in Computational biology.
His Lytic cycle, Viral replication and Epstein–Barr virus study in the realm of Virus connects with subjects such as Kaposi's sarcoma-associated herpesvirus. In the field of Gene, his study on Regulation of gene expression overlaps with subjects such as Rhadinovirus. Adam Grundhoff is involved in the study of Genome that focuses on Whole genome sequencing in particular.
Virology, Virus, Cell biology, Chromatin and Gene are his primary areas of study. His Virology research is multidisciplinary, incorporating perspectives in Origin of replication, Infection control, Immune system and Single-nucleotide polymorphism, Genotype. His Virus research incorporates elements of Transcriptome, Genome, Genomics and Microbiology.
The various areas that he examines in his Cell biology study include Ribosome, Gene expression and Ectopic expression. His Chromatin research includes elements of Histone, Computational biology, Host cell nucleus and Actin. Adam Grundhoff has included themes like Cell culture, Lymphoblast, Cell and Epstein–Barr virus in his Gene study.
The scientist’s investigation covers issues in Virology, Virus, Clade, Outbreak and Whole genome sequencing. His biological study deals with issues like Genotype, which deal with fields such as Virulence, Rotavirus and Reassortment. He mostly deals with Hepatitis B virus in his studies of Virus.
The concepts of his Clade study are interwoven with issues in Disease cluster, Pandemic and Meat packing industry. Adam Grundhoff interconnects Veterinary medicine, Severe acute respiratory syndrome coronavirus and Index case in the investigation of issues within Disease cluster. Adam Grundhoff works mostly in the field of Whole genome sequencing, limiting it down to concerns involving Strain and, occasionally, Severe acute respiratory syndrome coronavirus 2.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Pan-cancer analysis of whole genomes
Peter J. Campbell;Gad Getz;Jan O. Korbel;Joshua M. Stuart.
SV40-encoded microRNAs regulate viral gene expression and reduce susceptibility to cytotoxic T cells
Christopher S. Sullivan;Adam T. Grundhoff;Satvir Tevethia;James M. Pipas.
A combined computational and microarray-based approach identifies novel microRNAs encoded by human gamma-herpesviruses.
Adam Grundhoff;Christopher S. Sullivan;Don Ganem.
Inefficient establishment of KSHV latency suggests an additional role for continued lytic replication in Kaposi sarcoma pathogenesis
Adam Grundhoff;Don Ganem.
Journal of Clinical Investigation (2004)
Adam Grundhoff;Christopher S. Sullivan.
Micro RNAs of Epstein-Barr Virus Promote Cell Cycle Progression and Prevent Apoptosis of Primary Human B Cells
Eri Seto;Andreas Moosmann;Sebastian Grömminger;Nicole Walz.
PLOS Pathogens (2010)
The Epigenetic Landscape of Latent Kaposi Sarcoma-Associated Herpesvirus Genomes
Thomas Günther;Adam Grundhoff.
PLOS Pathogens (2010)
West Nile virus encodes a microRNA-like small RNA in the 3′ untranslated region which up-regulates GATA4 mRNA and facilitates virus replication in mosquito cells
Mazhar Hussain;Shessy Torres;Esther Schnettler;Anneke Funk.
Nucleic Acids Research (2012)
The Latency-Associated Nuclear Antigen of Kaposi's Sarcoma-Associated Herpesvirus Permits Replication of Terminal Repeat-Containing Plasmids
Adam Grundhoff;Don Ganem.
Journal of Virology (2003)
Epstein–Barr virus maintains lymphomas via its miRNAs
David T. Vereide;Eri Seto;Ya-Fang Chiu;Mitchell Hayes.
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