Dominique Garcin mainly focuses on Virology, Sendai virus, Genome, Gene and RNA. Dominique Garcin studies Virology, focusing on Virus in particular. His Sendai virus research is multidisciplinary, relying on both Cell culture and Interferon, STAT1.
His work deals with themes such as Regulation of gene expression, Reporter gene, RNA silencing and DNA, which intersect with Genome. His research investigates the connection with Gene and areas like Molecular biology which intersect with concerns in Ubiquitin ligase and TRIM25. His studies deal with areas such as Paramyxovirinae and Transcription as well as RNA.
Dominique Garcin spends much of his time researching Virology, Sendai virus, RNA, Virus and Molecular biology. Dominique Garcin has included themes like Cell culture, Messenger RNA and Cell biology in his Virology study. In Sendai virus, he works on issues like Mutant, which are connected to DNA-binding protein.
His RNA study integrates concerns from other disciplines, such as Genome and Polymerase. His Viral replication and Paramyxovirinae study are his primary interests in Virus. Dominique Garcin has researched Molecular biology in several fields, including Nucleotide, DNA and Green fluorescent protein.
Dominique Garcin mainly investigates Virology, Virus, RNA, Innate immune system and Cell biology. His study in the field of Viral entry is also linked to topics like TLR3. His work carried out in the field of Virus brings together such families of science as Amino acid and Peptide.
His research on RNA focuses in particular on RIG-I. Dominique Garcin focuses mostly in the field of Innate immune system, narrowing it down to matters related to Interferon and, in some cases, Sendai virus, Rhabdoviridae, Gene expression and Type I interferon signaling pathway. He works mostly in the field of Cell biology, limiting it down to concerns involving IRF7 and, occasionally, Splenocyte.
Dominique Garcin mostly deals with Virology, Viral replication, Virus, Gene and RNA. Dominique Garcin performs integrative study on Virology and Exome. His Viral replication study combines topics in areas such as Respiratory tract and Respiratory tract infections.
His research integrates issues of Amino acid, Plasma protein binding and Peptide sequence, Heptad repeat in his study of Virus. In the field of Gene, his study on Helicase and RNA silencing overlaps with subjects such as ATPase. Many of his research projects under RNA are closely connected to Intensive care with Intensive care, tying the diverse disciplines of science together.
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Paramyxovirus RNA Synthesis and the Requirement for Hexamer Genome Length: the Rule of Six Revisited
Daniel Kolakofsky;Thierry Pelet;Dominique Garcin;Stéphane Hausmann.
Journal of Virology (1998)
A highly recombinogenic system for the recovery of infectious Sendai paramyxovirus from cDNA: generation of a novel copy-back nondefective interfering virus.
Dominique Garcin;Thierry Pelet;Philippe Calain;Laurent Roux.
The EMBO Journal (1995)
Mitochondrial dynamics regulate the RIG-I-like receptor antiviral pathway
Céline Castanier;Dominique Garcin;Aimé Vazquez;Damien Arnoult.
EMBO Reports (2010)
Sendai Virus C Proteins Counteract the Interferon-Mediated Induction of an Antiviral State
Dominique Garcin;Patrizia Latorre;Daniel Kolakofsky.
Journal of Virology (1999)
The 5' ends of Hantaan virus (Bunyaviridae) RNAs suggest a prime-and-realign mechanism for the initiation of RNA synthesis.
Dominique Garcin;M Lezzi;M Dobbs;R M Elliott.
Journal of Virology (1995)
Sendai virus defective-interfering genomes and the activation of interferon-beta.
Laura Eve Strahle;Dominique Garcin;Daniel Kolakofsky.
Paramyxovirus mRNA editing, the "rule of six" and error catastrophe: a hypothesis.
Daniel Kolakofsky;Laurent Roux;Dominique Garcin;Rob W. H. Ruigrok.
Journal of General Virology (2005)
IFN-λ prevents influenza virus spread from the upper airways to the lungs and limits virus transmission
Jonas Klinkhammer;Daniel Schnepf;Liang Ye;Marilena Schwaderlapp.
MAVS ubiquitination by the E3 ligase TRIM25 and degradation by the proteasome is involved in type I interferon production after activation of the antiviral RIG-I-like receptors
Céline Castanier;Naima Zemirli;Naima Zemirli;Alain Portier;Alain Portier;Dominique Garcin.
BMC Biology (2012)
The Sendai paramyxovirus accessory C proteins inhibit viral genome amplification in a promoter-specific fashion.
Tamarra Leigh Cadd;Dominique Garcin;Caroline Tapparel;M Itoh.
Journal of Virology (1996)
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