Search results for "Dual topology"

showing 3 items of 3 documents

Assessment of determinants affecting the dual topology of hepadnaviral large envelope proteins

2004

For functional diversity, the large (L) envelope protein of hepatitis B virus (HBV) acquires a dual transmembrane topology via co-translational membrane integration of the S region and partial post-translational translocation of the preS subdomain. Because each process requires the second transmembrane segment (TM2), we explored the action of this determinant by using protease protection analysis of mutant L proteins. We demonstrated that neither the disruption of a leucine zipper-like motif by multiple alanine substitutions nor the flanking charges of TM2 affected the topological reorientation of L. The dispensability of both putative subunit interaction modules argues against a link betwe…

AlanineHepatitis B virusHepatitis B virusVirus AssemblyAmino Acid MotifsMolecular Sequence DataProtein domainPhenotype mixingBiological TransportBiologyEndoplasmic Reticulummedicine.disease_causeVirologyTransmembrane domainDual topologyAmino Acid SubstitutionViral Envelope ProteinsVirologyMembrane topologymedicineHepadnavirusAmino Acid SequenceProtein Processing Post-TranslationalJournal of General Virology
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Dual Topology of the Hepatitis B Virus Large Envelope Protein

2001

The large (L) envelope protein of the hepatitis B virus (HBV) has the peculiar capacity to form two transmembrane topologies via an as yet uncharacterized process of partial post-translational translocation of its pre-S domain across membranes. In view of a current model that predicts an HBV-specific channel generated during virion envelope assembly to enable pre-S translocation, we have examined parameters influencing L topogenesis by using protease protection analysis of wild-type and mutant L proteins synthesized in transfected cells. We demonstrate that contrary to expectation, all determinants, thought to be responsible for channel formation, are dispensable for pre-S reorientation. In…

Endoplasmic reticulumCell BiologyBiologyMembrane transportTransloconBiochemistryTransmembrane proteinTransport proteinCell biologyTransmembrane domainDual topologyProtein structureBiochemistryMolecular BiologyJournal of Biological Chemistry
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Mammalian BiP controls posttranslational ER translocation of the hepatitis B virus large envelope protein.

2008

AbstractThe hepatitis B virus L protein forms a dual topology in the endoplasmic reticulum (ER) via a process involving cotranslational membrane integration and subsequent posttranslational translocation of its preS subdomain. Here, we show that preS posttranslocation depends on the action of the ER chaperone BiP. To modulate the in vivo BiP activity, we designed an approach based on overexpressing its positive and negative regulators, ER-localized DnaJ-domain containing protein 4 (ERdj4) and BiP-associated protein (BAP), respectively. The feasibility of this approach was confirmed by demonstrating that BAP, but not ERdj4, destabilizes the L/BiP complex. Overexpressing BAP or ERdj4 inhibits…

Hepatitis B virusgenetic structuresBiPBiophysicsHemagglutinin (influenza)Chromosomal translocationmacromolecular substancesmedicine.disease_causeEndoplasmic ReticulumBiochemistryCell LineAdenosine TriphosphateViral Envelope ProteinsStructural BiologyIn vivoCalnexinHBVGeneticsmedicineHumansMolecular BiologyEndoplasmic Reticulum Chaperone BiPTranslocational regulationHeat-Shock ProteinsHepatitis B virusbiologyEndoplasmic reticulumMembrane ProteinsCell BiologyHSP40 Heat-Shock ProteinsMolecular biologyProtein Structure TertiaryProtein TransportDual topologyMembrane topologyProtein BiosynthesisMembrane topologybiology.proteinPosttranslational translocationMolecular ChaperonesFEBS letters
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