Mathematical Model of Virus Replication in Animal Cells

## Abstract Intracellular events that take place during influenza virus replication in animal cells are well understood qualitatively. However, to better understand the complex interaction of the virus with its host cell and to quantitatively analyze the use of cellular resources for virion formati

Several ascitic tumors have been tested for polyoma sensitivity. Three tumors, one methylcholanthrene-induced and two polyoma-virus-induced, were demonstrated to be sensitive to polyoma virus as judged by plaque titration, hemagglutination and fluorescent antibody assay. These determinants were cor

Replication-competent viruses have shown considerable promise in overcoming the inefficient gene transduction experienced by traditional gene therapy approaches to cancer treatment. The viruses infect tumor cells and replicate inside them, eventually causing lysis. Virus particles released during ly

Recently, the biological and biochemical characteristics of EMC virus have received considerable attention, but little is known concerning the relative susceptibility of various mammalian cells to EMC virus. In this study, a variety of mammalian cell types was evaluated for susceptibility to the M s

Measles virus can replicate in cultures of both infantile and fetal human thymic epithelial cells. Virus-induced cytopathology including syncytium formation was first evident around 24 hr after viral inoculation of these cultures. At the same time, the cultures began to lose their characteristic thy

A mechanistically based mathematical model is used to investigate some of the important factors in priming hepatocytes to enter the G 1 phase of the cell cycle. The model considers all of the relevant biochemical mechanisms from signal-receptor binding to the elevation of AP-1(activation protein tra