6533b85afe1ef96bd12b8c07
RESEARCH PRODUCT
Sec61alpha and TRAM are Sequentially Adjacent to a Nascent Viral Membrane Protein during its ER Integration
Ana SauríPeter J. MccormickArthur E. JohnsonArthur E. JohnsonIsmael Mingarrosubject
Virus IntegrationBiologyEndoplasmic ReticulumModels BiologicalViral Matrix ProteinsDogsMembranes (Biologia)Structural BiologyAnimalsRNA MessengerMolecular BiologyVirus IntegrationMembrane GlycoproteinsViral matrix proteinEndoplasmic reticulumProteïnes de membranaMembrane ProteinsViral membraneTransloconTransmembrane proteinCell biologyPlant Viral Movement ProteinsCross-Linking ReagentsMembrane proteinBiochemistrySEC Translocation ChannelsSEC Translocation ChannelsMolecular Chaperonesdescription
Co-translational integration of a nascent viral membrane protein into the endoplasmic reticulum membrane takes place via the translocon. We have been studying the early stages of the integration of a double-spanning plant viral movement protein to gain insights into how viral membrane proteins are transferred from the hydrophilic interior of the translocon into the hydrophobic environment of the bilayer, where the transmembrane (TM) segments of the viral proteins can diffuse freely. Photocrosslinking experiments reveal that this integration involves the sequential passage of the TM segments past Sec61alpha and translocating chain-associating membrane protein (TRAM). Each TM segment is first adjacent to Sec61alpha and subsequently is adjacent to TRAM. TRAM crosslinking extends for a long period during nascent chain biogenesis. In addition, the replacement of the first viral TM segment with a non-viral TM sequence still yields nascent chain photo-adducts with TRAM. TRAM therefore appears to be involved in viral membrane protein integration, and nascent chain recognition by TRAM does not appear to rely solely on the TM domains.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2007-01-01 |