Database of articles cited by EMDB/PDB/SASBDB data

Keywords
Structure methods	All X-ray diffraction NMR electron microscopy small angle scattering neutron diffraction fiber diffraction powder diffraction infrared spectroscopy EPR fluorescence transfer theoretical model Hybrid
Author
Journal
IF	>30 >20 >10 >5 all

Title	Two types of sheathed archaellum structures from Haloarcula marismortui differ in their outer layer architectures.
Journal, issue, pages	Nat Commun, Year 2026
Publish date	May 6, 2026
Authors	Vladimir A Meshcheryakov / Jaekyung Hyun / Satoshi Shibata / Alexey S Syutkin / Mikhail G Pyatibratov / Matthias Wolf /
PubMed Abstract	Many archaea swim by means of rotating helical filaments called archaella. Most archaella are about 10 nm in diameter and comprise multiple copies of the protein archaellin. Here, we describe two ...Many archaea swim by means of rotating helical filaments called archaella. Most archaella are about 10 nm in diameter and comprise multiple copies of the protein archaellin. Here, we describe two archaellum structures formed by the ArlA2 or ArlB archaellins from the haloarchaeon Haloarcula marismortui. We found that both filaments have an additional proteinaceous outer sheath surrounding their inner core, a feature not observed previously in archaea. The outer sheath structures of the two filaments differ fundamentally. The outer domain of ArlB archaellin rotates by 180, forming stable dimers that likely increase the filament rigidity. In contrast, neither rotation nor dimerization of the outer domain was observed in ArlA2 filaments. 3D variability analysis demonstrated that the motions of ArlA2 and ArlB filaments are significantly distinct. Additionally, the ArlB filament displays a larger negatively charged surface area than ArlA2, which may help adaptation to higher salt concentrations. Our structural findings provide insight into how the two filaments can adapt to their different environments. Larger archaellins with additional outer domains can be found in various groups of archaea. We propose that such proteins may allow hosts to modify the properties of their archaella to enhance environmental adaptation.
External links	Nat Commun / PubMed:42091601
Methods	EM (single particle) / EM (helical sym.)
Resolution	3.0 - 3.18 Å
Structure data	64861 9v95 EMDB-64861, PDB-9v95: Cryo-EM structure of the ArlB filament of Haloarcula marismortui Method: EM (single particle) / Resolution: 3.18 Å 64862 9v96 EMDB-64862, PDB-9v96: Cryo-EM structure of the inner core of ArlA2 filament of Haloarcula marismortui Method: EM (single particle) / Resolution: 3.14 Å 67194 9xtb EMDB-67194, PDB-9xtb: Cryo-EM structure of ArlA2 filament of Haloarcula marismortui Method: EM (helical sym.) / Resolution: 3.0 Å
Chemicals	ChemComp-NA: Unknown entry
Source	haloarcula marismortui (Halophile)
Keywords	PROTEIN FIBRIL / archaellum / haloarcheon