Ecology and Biogenesis of Functional Amyloids in Pseudomonas

Sarah L. Rouse; Stephen J. Matthews; Morten S. Dueholm

doi:10.1016/j.jmb.2018.05.004

Ecology and Biogenesis of Functional Amyloids in Pseudomonas

Sarah L. Rouse, Stephen J. Matthews, Morten S. Dueholm^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

44 Citations (Scopus)

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Abstract

Functional amyloids can be found in the extracellular matrix produced by many bacteria during biofilm growth. They mediate the initial attachment of bacteria to surfaces and provide stability and functionality to mature biofilms. Efficient amyloid biogenesis requires a highly coordinated system of amyloid subunits, molecular chaperones and transport systems. The functional amyloid of Pseudomonas (Fap) represents such a system. Here, we review the phylogenetic diversification of the Fap system, its potential ecological role and the dedicated machinery required for Fap biogenesis, with a particular focus on the amyloid exporter FapF, the structure of which has been recently resolved. We also present a sequence covariance-based in silico model of the FapC fiber-forming subunit. Finally, we highlight key questions that remain unanswered and we believe deserve further attention by the scientific community.

Original language	English
Journal	Journal of Molecular Biology
Volume	430
Issue number	20
Pages (from-to)	3685-3695
Number of pages	11
ISSN	0022-2836
DOIs	https://doi.org/10.1016/j.jmb.2018.05.004
Publication status	Published - 12 Oct 2018

Bibliographical note

Keywords

amyloid
diversity
Fap
sequence covariance analysis
structure

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title = "Ecology and Biogenesis of Functional Amyloids in Pseudomonas",

abstract = "Functional amyloids can be found in the extracellular matrix produced by many bacteria during biofilm growth. They mediate the initial attachment of bacteria to surfaces and provide stability and functionality to mature biofilms. Efficient amyloid biogenesis requires a highly coordinated system of amyloid subunits, molecular chaperones and transport systems. The functional amyloid of Pseudomonas (Fap) represents such a system. Here, we review the phylogenetic diversification of the Fap system, its potential ecological role and the dedicated machinery required for Fap biogenesis, with a particular focus on the amyloid exporter FapF, the structure of which has been recently resolved. We also present a sequence covariance-based in silico model of the FapC fiber-forming subunit. Finally, we highlight key questions that remain unanswered and we believe deserve further attention by the scientific community.",

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AU - Rouse, Sarah L.

AU - Matthews, Stephen J.

AU - Dueholm, Morten S.

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Y1 - 2018/10/12

N2 - Functional amyloids can be found in the extracellular matrix produced by many bacteria during biofilm growth. They mediate the initial attachment of bacteria to surfaces and provide stability and functionality to mature biofilms. Efficient amyloid biogenesis requires a highly coordinated system of amyloid subunits, molecular chaperones and transport systems. The functional amyloid of Pseudomonas (Fap) represents such a system. Here, we review the phylogenetic diversification of the Fap system, its potential ecological role and the dedicated machinery required for Fap biogenesis, with a particular focus on the amyloid exporter FapF, the structure of which has been recently resolved. We also present a sequence covariance-based in silico model of the FapC fiber-forming subunit. Finally, we highlight key questions that remain unanswered and we believe deserve further attention by the scientific community.

AB - Functional amyloids can be found in the extracellular matrix produced by many bacteria during biofilm growth. They mediate the initial attachment of bacteria to surfaces and provide stability and functionality to mature biofilms. Efficient amyloid biogenesis requires a highly coordinated system of amyloid subunits, molecular chaperones and transport systems. The functional amyloid of Pseudomonas (Fap) represents such a system. Here, we review the phylogenetic diversification of the Fap system, its potential ecological role and the dedicated machinery required for Fap biogenesis, with a particular focus on the amyloid exporter FapF, the structure of which has been recently resolved. We also present a sequence covariance-based in silico model of the FapC fiber-forming subunit. Finally, we highlight key questions that remain unanswered and we believe deserve further attention by the scientific community.

KW - amyloid

KW - diversity

KW - Fap

KW - sequence covariance analysis

KW - structure

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Ecology and Biogenesis of Functional Amyloids in Pseudomonas

Abstract

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Keywords

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