Archaic chaperone-usher pili self-secrete into superelastic zigzag springs

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dc.contributor.authorPakharukova Natalia
dc.contributor.authorMalmi Henri
dc.contributor.authorTuittila Minna
dc.contributor.authorDahlberg Tobias
dc.contributor.authorGhosal Debnath
dc.contributor.authorChang Yi-Wei
dc.contributor.authorMyint Si Lhyam
dc.contributor.authorPaavilainen Sari
dc.contributor.authorKnight Stefan David
dc.contributor.authorLamminmäki Urpo
dc.contributor.authorUhlin Bernt Eric
dc.contributor.authorAndersson Magnus
dc.contributor.authorJensen Grant
dc.contributor.authorZavialov Anton V.
dc.contributor.organizationfi=InFLAMES Lippulaiva|en=InFLAMES Flagship|
dc.contributor.organizationfi=MediCity|en=MediCity|
dc.contributor.organizationfi=biokemia|en=Biochemistry|
dc.contributor.organizationfi=biotekniikka|en=Biotechnology|
dc.contributor.organization-code1.2.246.10.2458963.20.49728377729
dc.contributor.organization-code1.2.246.10.2458963.20.68445910604
dc.contributor.organization-code1.2.246.10.2458963.20.83772236069
dc.contributor.organization-code1.2.246.10.2458963.20.98373201676
dc.converis.publication-id176483189
dc.converis.urlhttps://research.utu.fi/converis/portal/Publication/176483189
dc.date.accessioned2022-10-28T14:12:41Z
dc.date.available2022-10-28T14:12:41Z
dc.description.abstractAdhesive pili assembled through the chaperone-usher pathway are hair-like appendages that mediate host tissue colonization and biofilm formation of Gram-negative bacteria(1-3). Archaic chaperone-usher pathway pili, the most diverse and widespread chaperone-usher pathway adhesins, are promising vaccine and drug targets owing to their prevalence in the most troublesome multidrug-resistant pathogens(1,4,5). However, their architecture and assembly-secretion process remain unknown. Here, we present the cryo-electron microscopy structure of the prototypical archaic Csu pilus that mediates biofilm formation of Acinetobacter baumannii-a notorious multidrug-resistant nosocomial pathogen. In contrast to the thick helical tubes of the classical type 1 and P pili, archaic pili assemble into an ultrathin zigzag architecture secured by an elegant clinch mechanism. The molecular clinch provides the pilus with high mechanical stability as well as superelasticity, a property observed for the first time, to our knowledge, in biomolecules, while enabling a more economical and faster pilus production. Furthermore, we demonstrate that clinch formation at the cell surface drives pilus secretion through the outer membrane. These findings suggest that clinch-formation inhibitors might represent a new strategy to fight multidrug-resistant bacterial infections.
dc.format.pagerange335
dc.format.pagerange340
dc.identifier.eissn1476-4687
dc.identifier.jour-issn0028-0836
dc.identifier.olddbid186929
dc.identifier.oldhandle10024/170023
dc.identifier.urihttps://www.utupub.fi/handle/11111/41313
dc.identifier.urlhttps://www.nature.com/articles/s41586-022-05095-0
dc.identifier.urnURN:NBN:fi-fe2022102463171
dc.language.isoen
dc.okm.affiliatedauthorTuittila, Minna
dc.okm.affiliatedauthorMalmi, Henri
dc.okm.affiliatedauthorPaavilainen, Sari
dc.okm.affiliatedauthorLamminmäki, Urpo
dc.okm.affiliatedauthorZavialov, Anton
dc.okm.discipline1182 Biochemistry, cell and molecular biologyen_GB
dc.okm.discipline3111 Biomedicineen_GB
dc.okm.discipline318 Medical biotechnologyen_GB
dc.okm.discipline1182 Biokemia, solu- ja molekyylibiologiafi_FI
dc.okm.discipline3111 Biolääketieteetfi_FI
dc.okm.discipline318 Lääketieteen bioteknologiafi_FI
dc.okm.internationalcopublicationinternational co-publication
dc.okm.internationalityInternational publication
dc.okm.typeA1 ScientificArticle
dc.publisherNature Portfolio
dc.publisher.countryGermanyen_GB
dc.publisher.countrySaksafi_FI
dc.publisher.country-codeDE
dc.relation.doi10.1038/s41586-022-05095-0
dc.relation.ispartofjournalNature
dc.relation.issue7926
dc.relation.volume609
dc.source.identifierhttps://www.utupub.fi/handle/10024/170023
dc.titleArchaic chaperone-usher pili self-secrete into superelastic zigzag springs
dc.year.issued2022

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