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PDBsum entry 3whk
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References listed in PDB file
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Key reference
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Title
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Structural basis for proteasome formation controlled by an assembly chaperone nas2.
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Authors
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T.Satoh,
Y.Saeki,
T.Hiromoto,
Y.H.Wang,
Y.Uekusa,
H.Yagi,
H.Yoshihara,
M.Yagi-Utsumi,
T.Mizushima,
K.Tanaka,
K.Kato.
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Ref.
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Structure, 2014,
22,
731-743.
[DOI no: ]
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PubMed id
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Abstract
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Proteasome formation does not occur due to spontaneous self-organization but
results from a highly ordered process assisted by several assembly chaperones.
The assembly of the proteasome ATPase subunits is assisted by four
client-specific chaperones, of which three have been structurally resolved.
Here, we provide the structural basis for the working mechanisms of the last,
hereto structurally uncharacterized assembly chaperone, Nas2. We revealed that
Nas2 binds to the Rpt5 subunit in a bivalent mode: the N-terminal helical domain
of Nas2 masks the Rpt1-interacting surface of Rpt5, whereas its C-terminal PDZ
domain caps the C-terminal proteasome-activating motif. Thus, Nas2 operates as a
proteasome activation blocker, offering a checkpoint during the formation of the
19S ATPase prior to its docking onto the proteolytic 20S core particle.
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