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Stimulation of the Caulobacter crescentus surface sensing pathway by deletion of a specialized minor pilin-like gene

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Publicado en:bioRxiv (Feb 12, 2025)
Autor principal: Farah Obeid Charrouf
Otros Autores: Whitfield, Gregory B, Ellison, Courtney K, Brun, Yves V
Publicado:
Cold Spring Harbor Laboratory Press
Materias:
Pilin
Von Willebrand factor
Mutants
Structure-function relationships
Gene deletion
Genetic screening
Pili
Caulobacter crescentus
Acceso en línea:Citation/Abstract
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Resumen:Bacteria colonize surfaces through complex mechanisms of surface sensing. Pili are dynamic bacterial appendages that play an important role in this process. In Caulobacter crescentus, tension on retracting, surface-bound pili triggers the rapid synthesis of the adhesive holdfast, which permanently attaches cells to surfaces. However, the detailed mechanisms of pilus-mediated surface sensing are unclear. In this study, we used a genetic screen to isolate mutants with altered pilus activity to identify genes that may be involved in pilus-mediated surface-sensing. This screen identified cpaL, whose deletion led to reduced piliation levels, and surprisingly, a threefold increase in surface adhesion due to increased holdfast production. To understand this finding, we compared holdfast synthesis in wild-type and cpaL mutant cells under conditions that block pilus retraction. While this treatment increased holdfast production in wild-type cells by triggering the surface-sensing pathway, no increase was observed in the cpaL mutant, suggesting that mutation of cpaL maximally stimulates surface-sensing. Furthermore, when the cpaL mutant was grown in a medium that blocks the surface sensing pathway, cells exhibited decreased surface attachment and holdfast production, consistent with a role for CpaL in pilus-dependent surface sensing in C. crescentus. To better understand the function of CpaL, we analyzed its predicted structure, which suggested that CpaL is a minor pilin fused to a mechanosensitive von Willebrand factor type A (vWA) domain that could be accommodated at the pilus tip. These results collectively position CpaL as a strong candidate for a mechanosensory element in pilus-mediated surface sensing.
ISSN:2692-8205
DOI:10.1101/2025.02.12.637803
Fuente:Biological Science Database