A Conserved Glycine Residue of Trimeric Autotransporter Domains Plays a Key Role in<i>Yersinia</i>Adhesin A Autotransport

Grosskinsky, Ulrike; Schütz, Monika; Fritz, Michaela; Schmid, Yvonne; Lamparter, Marina C.; Szczęsny, Paweł; Lupas, Andrei N.; Autenrieth, Ingo B.; Linke, Dirk

doi:10.1128/jb.00985-07

Cited by 66 publications

(97 citation statements)

References 45 publications

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“…Indeed a recent study showed that although the Sec machinery greatly enhances the partitioning of α-helical transmembrane segments into a lipid bilayer, insertion efficiency is influenced by the nonpolar surface area of individual amino acid side chains (37). Moreover, although the generality of our results remains to be determined, it is noteworthy that the mutation of a conserved glycine residue in the β domain of a trimeric autotransporter also appears to affect its membrane insertion (38). Thus, the efficient assembly of at least closely related classes of OM proteins may depend on the ability of the polypeptide to pack tightly or to remain flexible at specific locations.…”

Section: Discussionmentioning

confidence: 65%

Mechanistic link between β barrel assembly and the initiation of autotransporter secretion

Pavlova

Peterson

Ieva

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

126

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Autotransporters are bacterial virulence factors that contain an N-terminal extracellular ("passenger") domain and a C-terminal β barrel ("β") domain that anchors the protein to the outer membrane. The β domain is required for passenger domain secretion, but its exact role in autotransporter biogenesis is unclear. Here we describe insights into the function of the β domain that emerged from an analysis of mutations in the Escherichia coli O157:H7 autotransporter EspP. We found that the G1066A and G1081D mutations slightly distort the structure of the β domain and delay the initiation of passenger domain translocation. Site-specific photocrosslinking experiments revealed that the mutations slow the insertion of the β domain into the outer membrane, but do not delay the binding of the β domain to the factor that mediates the insertion reaction (the Bam complex). Our results demonstrate that the β domain does not simply target the passenger domain to the outer membrane, but promotes translocation when it reaches a specific stage of assembly. Furthermore, our results provide evidence that the Bam complex catalyzes the membrane integration of β barrel proteins in a multistep process that can be perturbed by minor structural defects in client proteins.

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Section: Discussionmentioning

confidence: 65%

Mechanistic link between β barrel assembly and the initiation of autotransporter secretion

Pavlova

Peterson

Ieva

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

126

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“…There are at least two possible explanations for this phenotype; because we know that autotransporter-mediated adhesion is very much a dosedependent effect (28,29), the protein expression level of IntHA453 might be reduced compared with Int WT. Alternatively, the IntHA453 is expressed at wild type levels, but it is either masked or misfolded and thus not able to adhere to the Tir receptor.…”

Section: Intha453 Is Expressed At the Wild Type Level And The ␤-Barrementioning

confidence: 99%

The Inverse Autotransporter Intimin Exports Its Passenger Domain via a Hairpin Intermediate

Oberhettinger

Leo

Linke

et al. 2015

Journal of Biological Chemistry

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Background:Intimin exports its C-terminal passenger domain through an N-terminal ␤-barrel onto the bacterial surface. Results: Insertion of an epitope tag at the very N terminus of the passenger domain stalls the export of the passenger. Conclusion:The intimin passenger adopts a hairpin conformation during translocation. Significance: Our results confirm the hairpin model of inverse autotransport where the passenger is translocated from the N to the C terminus.

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“…We previously replaced G389 with the four naturally occurring residues (A, S, T, and N) and also with H in order to explore the upper size limit of the pocket. The side chain size of the residues increases in the order G Ͻ A Ͻ S Ͻ T Ͻ N Ͻ H, and polarity increases in the order A Ͻ G Ͻ S Ͻ T Ͻ N Ͻ H. When expressed in E. coli, these G389 substitutions were shown to influence YadA surface display and stability, to different degrees (19).…”

mentioning

confidence: 99%

“…We previously showed that YadA and most other known TAAs have a G residue in the second beta-strand of the membrane anchor domain which forms the beta-barrel translocator pore; in the exceptional TAAs, it is either A, S, T, or N (19). This residue (G389 in YadA of Y. enterocolitica O:8) faces the lumen of the beta-barrel.…”

mentioning

confidence: 99%

Trimer Stability of YadA Is Critical for Virulence of Yersinia enterocolitica

et al. 2010

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Yersinia adhesin A (YadA) is a trimeric autotransporter adhesin with multiple functions in host-pathogen interactions. The aim of this study was to dissect the virulence functions promoted by YadA in vitro and in vivo. To accomplish this, we generated Yersinia enterocolitica O:8 mutants expressing point mutations in YadA G389, a highly conserved residue in the membrane anchor of YadA, and analyzed their impact on YadA expression and virulence functions. We found that point mutations of YadA G389 led to impaired transport, stability, and surface display of YadA. YadA G389A and G389S mutants showed comparable YadA surface expression, autoagglutination, and adhesion to those of wild-type YadA but displayed reduced trimer stability and complement resistance in vitro and were 10-to 1,000-fold attenuated in experimental Y. enterocolitica infection in mice. The G389T, G389N, and G389H mutants lost trimer stability, exhibited strongly reduced surface display, autoagglutination, adhesion properties, and complement resistance, and were avirulent (>10,000-fold attenuation) in mice. Our data demonstrate that G389 is a critical residue of YadA, required for optimal trimer stability, transport, surface display, and serum resistance. We also show that stable trimeric YadA protein is essential for virulence of Y. enterocolitica.

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A Conserved Glycine Residue of Trimeric Autotransporter Domains Plays a Key Role inYersiniaAdhesin A Autotransport

Cited by 66 publications

References 45 publications

Mechanistic link between β barrel assembly and the initiation of autotransporter secretion

Mechanistic link between β barrel assembly and the initiation of autotransporter secretion

The Inverse Autotransporter Intimin Exports Its Passenger Domain via a Hairpin Intermediate

Trimer Stability of YadA Is Critical for Virulence of Yersinia enterocolitica

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