Molecular basis for the folding of beta-helical autotransporter passenger domains
Date
2018
Authors
Yuan, Xiaojun
Johnson, Matthew
Zhang, Jing
Lo, Alvin
Schembri, Mark A.
Wijeyewickrema, Lakshmi
Pike, Robert N
Huysmans, Gerard H.M.
Henderson, Ian R
Leyton, Denisse
Journal Title
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Volume Title
Publisher
Macmillan Publishers Ltd
Abstract
Bacterial autotransporters comprise a C-terminal β-barrel domain, which must be correctly
folded and inserted into the outer membrane to facilitate translocation of the N-terminal
passenger domain to the cell exterior. Once at the surface, the passenger domains of most
autotransporters are folded into an elongated β-helix. In a cellular context, key molecules
catalyze the assembly of the autotransporter β-barrel domain. However, how the passenger
domain folds into its functional form is poorly understood. Here we use mutational analysis
on the autotransporter Pet to show that the β-hairpin structure of the fifth extracellular loop
of the β-barrel domain has a crucial role for passenger domain folding into a β-helix.
Bioinformatics and structural analyses, and mutagenesis of a homologous autotransporter,
suggest that this function is conserved among autotransporter proteins with β-helical
passenger domains. We propose that the autotransporter β-barrel domain is a folding vector
that nucleates folding of the passenger domain.
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Source
Nature Communications
Type
Journal article
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Open Access
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Creative Commons Attribution 4.0 International License
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