Add to ORKGChaperonins are double-ring protein assemblies with a central cavity that provides a sequestered environment for in vivo protein folding. Their reaction cycle is thought to consist of a nucleotide-regulated alternation between an open substrate-acceptor state and a closed folding-active state. The cavity of ATP-charged group I chaperonins, typified by Escherichia coil GroEL [1], is sealed off by a co-chaperonin, whereas group II chaperonins - the archaeal thermosome and eukaryotic TRIC/CCT [2] - possess a built in lid [3-5]. The mechanism of the lid's rearrangements requires clarification, as even in the absence of nucleotides, thermosomes of Thermoplama acidophilum appear open in vitrified ice [6] and dosed in crystals [4]. Here we analyze...
Recent structural data imply differences in allosteric behavior of the group I chaperonins, typified...
Chaperonins are ubiquitous protein assemblies present in bacteria, eukaryota, and archaea, facilitat...
SummaryGroup II chaperonins are ATP-dependent ring-shaped complexes that bind nonnative polypeptides...
Chaperonins are double-ring protein assemblies with a central cavity that provides a sequestered env...
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...
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 ...
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...
Group II chaperonins are essential mediators of cellular protein folding in eukaryotes and archaea. ...
SummaryChaperonins are large ATP-driven molecular machines that mediate cellular protein folding. Gr...
Group II chaperonins are essential mediators of cellular protein folding in eukaryotes and archaea. ...
Chaperonins are large ATP-driven molecular machines that mediate cellular protein folding. Group II ...
<div><p>Group II chaperonins play important roles in protein homeostasis in the eukaryotic cytosol a...
Recent structural data imply differences in allosteric behavior of the group I chaperonins, typified...
Chaperonins are ubiquitous protein assemblies present in bacteria, eukaryota, and archaea, facilitat...
SummaryGroup II chaperonins are ATP-dependent ring-shaped complexes that bind nonnative polypeptides...
Chaperonins are double-ring protein assemblies with a central cavity that provides a sequestered env...
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...
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 ...
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...
Group II chaperonins are essential mediators of cellular protein folding in eukaryotes and archaea. ...
SummaryChaperonins are large ATP-driven molecular machines that mediate cellular protein folding. Gr...
Group II chaperonins are essential mediators of cellular protein folding in eukaryotes and archaea. ...
Chaperonins are large ATP-driven molecular machines that mediate cellular protein folding. Group II ...
<div><p>Group II chaperonins play important roles in protein homeostasis in the eukaryotic cytosol a...
Recent structural data imply differences in allosteric behavior of the group I chaperonins, typified...
Chaperonins are ubiquitous protein assemblies present in bacteria, eukaryota, and archaea, facilitat...
SummaryGroup II chaperonins are ATP-dependent ring-shaped complexes that bind nonnative polypeptides...