2000
DOI: 10.1073/pnas.140216497
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Ordered membrane insertion of an archaeal opsin in vivo

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Cited by 48 publications
(32 citation statements)
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“…This result is consistent with observations relating to folding in vivo, which showed bR helices fold sequentially with helix G folding last (25). bO is inserted sequentially from N-to C-terminal into the membrane via the secretory translocase (46) but only part of the protein is inserted cotranslationally; helices F and G only associate with upstream helices after translation is complete (28). Taken together, the data suggest that a general theme of bR folding in vivo and in vitro is the establishment of a stable core of folded helices toward the N-terminal and the subsequent coalescence of the rest of the structure.…”
Section: Discussionsupporting
confidence: 90%
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“…This result is consistent with observations relating to folding in vivo, which showed bR helices fold sequentially with helix G folding last (25). bO is inserted sequentially from N-to C-terminal into the membrane via the secretory translocase (46) but only part of the protein is inserted cotranslationally; helices F and G only associate with upstream helices after translation is complete (28). Taken together, the data suggest that a general theme of bR folding in vivo and in vitro is the establishment of a stable core of folded helices toward the N-terminal and the subsequent coalescence of the rest of the structure.…”
Section: Discussionsupporting
confidence: 90%
“…A simple interpretation of these results leads to the hypothesis that the bR transition state will comprise a stable folding core, which minimally includes helix B. Here, we investigate whether this proposed folding core contains elements of another helix of bR, by extending Φ-value analysis to another transmembrane segment of bR, the C-terminal helix G. This helix is of interest because it contains K216, the covalent attachment site for the retinal cofactor, and previous data suggested that unlike helix B, helix G in isolation is not inherently stable (23,24) and that it folds later in the folding pathway in vitro (25)(26)(27) and in vivo (28). Extending our previous successful study we use Ala-scanning mutagenesis to identify suitable mutants and combine kinetic and equilibrium experiments to obtain Φ-values for 12 residues in helix G. Additionally we commence double mutant studies to probe the extent of interhelix hydrogen bonding in the folding transition.…”
mentioning
confidence: 99%
“…22 In contrast, kinetic radiolabelling approaches revealed the co-translational insertion of the N-terminal portion of the Halobacterium salinarum membrane protein bacterioopsin. 23 Moreover, earlier studies reporting co-sedimentation of SRP (7 S) RNA and bacterioopsin mRNA with membrane-bound polysomes, together with puromycin-induced release of the SRP RNA from the polysomes, 24 as well as more recent studies addressing SRP in H. volcanii 25,26 and other archaeal species, 27 -31 lend further support for the existence of a co-translational mode of protein translocation in Archaea. Direct demonstration of an interaction between ribosomes and the archaeal translocation complex, a central step in a co-translational mode of translocation, remains, however, to be presented.…”
Section: Introductionmentioning
confidence: 83%
“…Under microaerobic conditions, BR is induced ϳ50-fold (6) and forms a twodimensional crystal known as the purple membrane. This system has served as a model for studying key steps in membrane protein biogenesis, including protein insertion into the membrane (7,8) and the assembly of protein-lipid complexes (9, 10). H. salinarum is genetically tractable, and the genome sequence of a closely related organism, Halobacterium sp.…”
mentioning
confidence: 99%