Translocases of the AAA+ (ATPases Associated with various cellular Activities) family are powerful molecular machines that use the mechano-chemical coupling of ATP hydrolysis and conformational changes to thread DNA or protein substrates through their central channel for many important biological processes. These motors comprise hexameric rings of ATPase subunits, in which highly conserved nucleotide-binding domains form active-site pockets near the subunit interfaces and aromatic pore-loop residues extend into the central channel for substrate binding and mechanical pulling. Over the past 2 years, 41 cryo-EM structures have been solved for substrate-bound AAA+ translocases that revealed spiral-staircase arrangements of pore-loop residues s...
The AAA (ATPases associated with diverse cellular activities) protein family encompasses a large gro...
Many viruses package their genome into preformed capsids using packaging motors powered by the hydro...
1999). The ATP binding and hydrolysis cycles of these molecular machines presumably couple substrate...
ATP-dependent proteases exist in all cells and are crucial regulators of the proteome. These machine...
AAA+ ATPases are a diverse protein superfamily which power a vast number of cellular processes, from...
12 p.- 7 fig.-2 tab. supl. -15 fig. supl.-1 vid.Summary Transposons are ubiquitous genetic elements ...
International audienceAAA+ ATPases are a diverse protein superfamily which power a vast number of ce...
When a cellular protein has done its job or lost its utility, it should be removed, recycled, or rem...
Ring-shaped AAA+ ATPases control a variety of cellular processes by substrate unfolding and remodeli...
The 26S proteasome is the primary eukaryotic degradation machine and thus is critically involved in ...
Protein complexes belonging to the super-family of ATPases Associated with diverse Activities of the...
The protein-remodeling machine Hsp104 dissolves amorphous aggregates as well as ordered amyloid asse...
Molecular machines are small assemblies harnessed to perform mechanical work in cells. These motors ...
Ring-shaped oligomeric ATPases are essential for a variety of cellular processes ranging from protei...
The 26S proteasome is the major eukaryotic ATP-dependent protease, yet the detailed mechanisms utili...
The AAA (ATPases associated with diverse cellular activities) protein family encompasses a large gro...
Many viruses package their genome into preformed capsids using packaging motors powered by the hydro...
1999). The ATP binding and hydrolysis cycles of these molecular machines presumably couple substrate...
ATP-dependent proteases exist in all cells and are crucial regulators of the proteome. These machine...
AAA+ ATPases are a diverse protein superfamily which power a vast number of cellular processes, from...
12 p.- 7 fig.-2 tab. supl. -15 fig. supl.-1 vid.Summary Transposons are ubiquitous genetic elements ...
International audienceAAA+ ATPases are a diverse protein superfamily which power a vast number of ce...
When a cellular protein has done its job or lost its utility, it should be removed, recycled, or rem...
Ring-shaped AAA+ ATPases control a variety of cellular processes by substrate unfolding and remodeli...
The 26S proteasome is the primary eukaryotic degradation machine and thus is critically involved in ...
Protein complexes belonging to the super-family of ATPases Associated with diverse Activities of the...
The protein-remodeling machine Hsp104 dissolves amorphous aggregates as well as ordered amyloid asse...
Molecular machines are small assemblies harnessed to perform mechanical work in cells. These motors ...
Ring-shaped oligomeric ATPases are essential for a variety of cellular processes ranging from protei...
The 26S proteasome is the major eukaryotic ATP-dependent protease, yet the detailed mechanisms utili...
The AAA (ATPases associated with diverse cellular activities) protein family encompasses a large gro...
Many viruses package their genome into preformed capsids using packaging motors powered by the hydro...
1999). The ATP binding and hydrolysis cycles of these molecular machines presumably couple substrate...
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