Add to ORKGCorresponding to the sole or basic component of the surface (S)-layer surrounding the archaeal cell in most known cases, S-layer glycoproteins are in direct contact with the harsh environments that characterize niches where Archaea can thrive. Accordingly, early work examining archaeal S-layer glycoproteins focused on identifying those properties that allow members of this group of proteins to maintain their structural integrity in the face of extremes of temperature, pH, and salinity, as well as other physical challenges. However, with expansion of the list of archaeal strains serving as model systems, as well as growth in the number of molecular tools available for the manipulation of these strains, studies on archaeal S-layer glycoprotei...
Glycosylation is a complex process of co- or post-translational modification that expands the divers...
S-layers commonly cover archaeal cell envelopes and are composed of proteins that self-assemble into...
Archaea, like Eukarya and Bacteria, are able to N glycosylate select protein targets. However, in co...
Archaea are best known in their capacities as extremophiles, i.e. micro-organisms able to thrive in ...
Many archaeal proteins undergo posttranslational modifications. S-layer proteins and flagellins have...
The archaea are recognized as a separate third domain of life together with the bacteria and eucarya...
The archaea are recognized as a separate third domain of life together with the bacteria and eucarya...
Cell surfaces are decorated by a variety of proteins that facilitate interactions with their environ...
Cell surface proteins of hyperthermophilic Archaea actively participate in intercellular communicati...
Regular crystalline surface layers (S-layers) are widespread among prokaryotes and probably represen...
Regular crystalline surface layers (S-layers) are widespread among prokaryotes and probably represen...
Glycosylation is one of the most prevalent post-translational modifications of proteins that expand ...
Haloarcula hispanica is one of members of the Halobacteriaceae, which displays particularly low rest...
AbstractThe S-layer glycoprotein is the sole component of the protein shell surrounding Haloferax vo...
ABSTRACT N-glycosylation in Archaea presents aspects of this posttranslational modification not seen...
Glycosylation is a complex process of co- or post-translational modification that expands the divers...
S-layers commonly cover archaeal cell envelopes and are composed of proteins that self-assemble into...
Archaea, like Eukarya and Bacteria, are able to N glycosylate select protein targets. However, in co...
Archaea are best known in their capacities as extremophiles, i.e. micro-organisms able to thrive in ...
Many archaeal proteins undergo posttranslational modifications. S-layer proteins and flagellins have...
The archaea are recognized as a separate third domain of life together with the bacteria and eucarya...
The archaea are recognized as a separate third domain of life together with the bacteria and eucarya...
Cell surfaces are decorated by a variety of proteins that facilitate interactions with their environ...
Cell surface proteins of hyperthermophilic Archaea actively participate in intercellular communicati...
Regular crystalline surface layers (S-layers) are widespread among prokaryotes and probably represen...
Regular crystalline surface layers (S-layers) are widespread among prokaryotes and probably represen...
Glycosylation is one of the most prevalent post-translational modifications of proteins that expand ...
Haloarcula hispanica is one of members of the Halobacteriaceae, which displays particularly low rest...
AbstractThe S-layer glycoprotein is the sole component of the protein shell surrounding Haloferax vo...
ABSTRACT N-glycosylation in Archaea presents aspects of this posttranslational modification not seen...
Glycosylation is a complex process of co- or post-translational modification that expands the divers...
S-layers commonly cover archaeal cell envelopes and are composed of proteins that self-assemble into...
Archaea, like Eukarya and Bacteria, are able to N glycosylate select protein targets. However, in co...