Add to ORKGChaperonins are double-ring protein folding machines fueled by ATP binding and hydrolysis. Conformational rearrangements upon ATPase cycling of the group I chaperonins, typified by the Escherichia coli GroEL/GroES system, have been thoroughly investigated by cryo-electron microscopy and X-ray crystallography. For archaeal group II chaperonins, however, these methods have so far failed to provide a correlation between the structural and the functional states. Here, we show that the conformation of the native alpha beta-thermosome of Thermoplasma acidophilum in vitrified ice is strictly regulated by adenine nucleotides. (C) 2000 Federation of European Biochemical Societies. Published by Elsevier Science B.V. All rights reserved. [References: ...
The thermosome, the chaperonin of the archaea, and its homologue from the cytosol of eukaryotes, kno...
AbstractThe thermosome, the chaperonin of the archaea, and its homologue from the cytosol of eukaryo...
Group II chaperonins are essential mediators of cellular protein folding in eukaryotes and archaea. ...
Chaperonins are double-ring protein folding machines fueled by ATP binding and hydrolysis. Conformat...
AbstractChaperonins are double-ring protein folding machines fueled by ATP binding and hydrolysis. C...
Chaperonins are double-ring protein assemblies with a central cavity that provides a sequestered env...
AbstractChaperonins are double-ring protein assemblies with a central cavity that provides a sequest...
Chaperonins are double-ring protein assemblies with a central cavity that provides a sequestered env...
Protein folding by chaperonins is powered by ATP binding and hydrolysis. ATPase activity drives the ...
Protein folding by chaperonins is powered by ATP binding and hydrolysis. ATPase activity drives the ...
Recent structural data imply differences in allosteric behavior of the group I chaperonins, typified...
Recent structural data imply differences in allosteric behavior of the group I chaperonins, typified...
AbstractWe have determined to 2.6 Å resolution the crystal structure of the thermosome, the archaeal...
Chaperonins are large ATP-driven molecular machines that mediate cellular protein folding. Group II ...
SummaryChaperonins are large ATP-driven molecular machines that mediate cellular protein folding. Gr...
The thermosome, the chaperonin of the archaea, and its homologue from the cytosol of eukaryotes, kno...
AbstractThe thermosome, the chaperonin of the archaea, and its homologue from the cytosol of eukaryo...
Group II chaperonins are essential mediators of cellular protein folding in eukaryotes and archaea. ...
Chaperonins are double-ring protein folding machines fueled by ATP binding and hydrolysis. Conformat...
AbstractChaperonins are double-ring protein folding machines fueled by ATP binding and hydrolysis. C...
Chaperonins are double-ring protein assemblies with a central cavity that provides a sequestered env...
AbstractChaperonins are double-ring protein assemblies with a central cavity that provides a sequest...
Chaperonins are double-ring protein assemblies with a central cavity that provides a sequestered env...
Protein folding by chaperonins is powered by ATP binding and hydrolysis. ATPase activity drives the ...
Protein folding by chaperonins is powered by ATP binding and hydrolysis. ATPase activity drives the ...
Recent structural data imply differences in allosteric behavior of the group I chaperonins, typified...
Recent structural data imply differences in allosteric behavior of the group I chaperonins, typified...
AbstractWe have determined to 2.6 Å resolution the crystal structure of the thermosome, the archaeal...
Chaperonins are large ATP-driven molecular machines that mediate cellular protein folding. Group II ...
SummaryChaperonins are large ATP-driven molecular machines that mediate cellular protein folding. Gr...
The thermosome, the chaperonin of the archaea, and its homologue from the cytosol of eukaryotes, kno...
AbstractThe thermosome, the chaperonin of the archaea, and its homologue from the cytosol of eukaryo...
Group II chaperonins are essential mediators of cellular protein folding in eukaryotes and archaea. ...