Literature DB >> 26109065

The Tubular Sheaths Encasing Methanosaeta thermophila Filaments Are Functional Amyloids.

Morten S Dueholm1, Poul Larsen1, Kai Finster2, Marcel R Stenvang3, Gunna Christiansen4, Brian S Vad3, Andreas Bøggild5, Daniel E Otzen3, Per Halkjær Nielsen6.   

Abstract

Archaea are renowned for their ability to thrive in extreme environments, although they can be found in virtually all habitats. Their adaptive success is linked to their unique cell envelopes that are extremely resistant to chemical and thermal denaturation and that resist proteolysis by common proteases. Here we employ amyloid-specific conformation antibodies and biophysical techniques to show that the extracellular cell wall sheaths encasing the methanogenic archaea Methanosaeta thermophila PT are functional amyloids. Depolymerization of sheaths and subsequent MS/MS analyses revealed that the sheaths are composed of a single major sheath protein (MspA). The amyloidogenic nature of MspA was confirmed by in vitro amyloid formation of recombinant MspA under a wide range of environmental conditions. This is the first report of a functional amyloid from the archaeal domain of life. The amyloid nature explains the extreme resistance of the sheath, the elastic properties that allow diffusible substrates to penetrate through expandable hoop boundaries, and how the sheaths are able to split and elongate outside the cell. The archaeal sheath amyloids do not share homology with any of the currently known functional amyloids and clearly represent a new function of the amyloid protein fold.
© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.

Entities:  

Keywords:  amyloid; archaea; cell wall; functional amyloid; methanogen; protein folding; sheath; structure-function

Mesh:

Substances:

Year:  2015        PMID: 26109065      PMCID: PMC4536462          DOI: 10.1074/jbc.M115.654780

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  68 in total

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4.  The functional curli amyloid is not based on in-register parallel beta-sheet structure.

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2.  The biofilm adhesion protein Aap from Staphylococcus epidermidis forms zinc-dependent amyloid fibers.

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Review 5.  The Role of Functional Amyloids in Multicellular Growth and Development of Gram-Positive Bacteria.

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6.  Identification of amyloidogenic proteins in the microbiomes of a rat Parkinson's disease model and wild-type rats.

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7.  Functional bacterial amyloid increases Pseudomonas biofilm hydrophobicity and stiffness.

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8.  A Monte Carlo Study of the Early Steps of Functional Amyloid Formation.

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10.  Exploring Proteins Containing Amyloidogenic Regions in the Proteomes of Bacteria of the Order Rhizobiales.

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