The unique structure of archaeal ‘hami’, highly complex cell appendages with nano‐grappling hooks

Summary Proteinaceous, hair‐like appendages known as fimbriae or pili commonly extend from the surface of prokaryotic cells and serve important functions such as cell adhesion, biofilm formation, motility and DNA transfer. Here we show that a novel group of archaea from cold, sulphidic springs has d...

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Published in:Molecular microbiology 2005-04, Vol.56 (2), p.361-370
Main Authors: Moissl, Christine, Rachel, Reinhard, Briegel, Ariane, Engelhardt, Harald, Huber, Robert
Format: Article
Language:English
Subjects:
Archaea
Archaea - classification
Archaea - physiology
Archaea - ultrastructure
Archaeal Proteins - chemistry
Archaeal Proteins - physiology
Bacteria
Bacteriology
Biological and medical sciences
Cells
Fundamental and applied biological sciences. Psychology
Genes, Archaeal
Microbiology
Miscellaneous
Proteins
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container_title Molecular microbiology
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creator Moissl, Christine
Rachel, Reinhard
Briegel, Ariane
Engelhardt, Harald
Huber, Robert
description Summary Proteinaceous, hair‐like appendages known as fimbriae or pili commonly extend from the surface of prokaryotic cells and serve important functions such as cell adhesion, biofilm formation, motility and DNA transfer. Here we show that a novel group of archaea from cold, sulphidic springs has developed cell surface appendages of an unexpectedly high complexity with a well‐defined base‐to‐top organization. It represents a new class of filamentous cell appendages, for which the term ‘hamus’ is proposed. Each archaeal cell is surrounded by a halo of about 100 hami, which mediate strong adhesion of the cells to surfaces of different chemical composition. The hami are mainly composed of 120 kDa subunits and remained stable in a broad temperature and pH range (0–70°C; 0.5–11.5). Electron microscopy and cryo‐electron tomography revealed that the hamus filament possesses a helical basic structure. At periodic distances, three prickles emanate from the filament, giving it the character of industrially produced barbwire. At its distal end the hami carry a tripartite, barbed grappling hook (60 nm in diameter). The architecture of this molecular hook is reminiscent of man‐made fishhooks, grapples and anchors. It appears that nature has developed a perfect mechanical nano‐tool in the course of biological evolution, which also might prove useful in the field of nanobiotechnology.
doi_str_mv 10.1111/j.1365-2958.2005.04294.x
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Here we show that a novel group of archaea from cold, sulphidic springs has developed cell surface appendages of an unexpectedly high complexity with a well‐defined base‐to‐top organization. It represents a new class of filamentous cell appendages, for which the term ‘hamus’ is proposed. Each archaeal cell is surrounded by a halo of about 100 hami, which mediate strong adhesion of the cells to surfaces of different chemical composition. The hami are mainly composed of 120 kDa subunits and remained stable in a broad temperature and pH range (0–70°C; 0.5–11.5). Electron microscopy and cryo‐electron tomography revealed that the hamus filament possesses a helical basic structure. At periodic distances, three prickles emanate from the filament, giving it the character of industrially produced barbwire. At its distal end the hami carry a tripartite, barbed grappling hook (60 nm in diameter). The architecture of this molecular hook is reminiscent of man‐made fishhooks, grapples and anchors. 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source Wiley-Blackwell Read & Publish Collection
subjects Archaea
Archaea - classification
Archaea - physiology
Archaea - ultrastructure
Archaeal Proteins - chemistry
Archaeal Proteins - physiology
Bacteria
Bacteriology
Biological and medical sciences
Cells
Fundamental and applied biological sciences. Psychology
Genes, Archaeal
Microbiology
Miscellaneous
Proteins
title The unique structure of archaeal ‘hami’, highly complex cell appendages with nano‐grappling hooks
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