1. PepGMV Rep-Protein Expression in Mammalian Cells
- Author
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Teresa García-Gasca, Irineo Torres-Pacheco, Ramón G. Guevara-González, Angela María Chapa-Oliver, and Laura Mejía-Teniente
- Subjects
viruses ,lcsh:QR1-502 ,Virus Replication ,Genome ,lcsh:Microbiology ,Article ,Cell Line ,Mice ,Viral Proteins ,chemistry.chemical_compound ,Virology ,Animals ,Genetics ,biology ,Host (biology) ,Begomovirus ,food and beverages ,Fibroblasts ,Cell cycle ,Rep protein ,biology.organism_classification ,Plant cell ,Infectious Diseases ,chemistry ,Viral replication ,Cell culture ,Geminivirus ,cell cycle ,DNA - Abstract
The Geminiviruses genome is a small, single strand DNA that replicates in the plant cell nucleus. Analogous to animal DNA viruses, Geminiviruses depend on the host replication machinery to amplify their genomes and only supply the factors required to initiate their replication. Consequently, Geminiviruses remove the cell-cycle arrest and induce the host replication machinery using an endocycle process. They encode proteins, such as the conserved replication-associated proteins (Rep) that interact with retinoblastoma-like proteins in plants and alter the cell division cycle in yeasts. Therefore, the aim of this work is to analyze the impact of Pepper Golden Mosaic Virus (PepGMV) Rep protein in mammalian cells. Results indicate that the pTracer-SV40:Rep construction obtained in this work can be used to analyze the Rep protein effect in mammalian cells in order to compare the cell cycle regulation mechanisms in plants and animals.
- Published
- 2012
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