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Rotavirus Nsp4: Cell Type-Dependent Transport Kinetics To The Exofacial Plasma Membrane And Release From Intact Infected Cells, Thomas F. Gibbons, Stephen M. Storey, Cecelia V. Williams, Avery Mcintosh, Deanne M. Mitchel, Rebecca D. Parr, Friedhelm Schroeder, Judith M. Ball
Rotavirus Nsp4: Cell Type-Dependent Transport Kinetics To The Exofacial Plasma Membrane And Release From Intact Infected Cells, Thomas F. Gibbons, Stephen M. Storey, Cecelia V. Williams, Avery Mcintosh, Deanne M. Mitchel, Rebecca D. Parr, Friedhelm Schroeder, Judith M. Ball
Faculty Publications
Background
Rotavirus NSP4 localizes to multiple intracellular sites and is multifunctional, contributing to RV morphogenesis, replication and pathogenesis. One function of NSP4 is the induction of early secretory diarrhea by binding surface receptors to initiate signaling events. The aims of this study were to determine the transport kinetics of NSP4 to the exofacial plasma membrane (PM), the subsequent release from intact infected cells, and rebinding to naïve and/or neighboring cells in two cell types.
Methods
Transport kinetics was evaluated using surface-specific biotinylation/streptavidin pull-downs and exofacial exposure of NSP4 was confirmed by antibody binding to intact cells, and fluorescent resonant energy …