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PDBsum entry 2oit
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References listed in PDB file
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Key reference
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Title
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Crystal structure of the n-Terminal domain of the human protooncogene nup214/can.
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Authors
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J.Napetschnig,
G.Blobel,
A.Hoelz.
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Ref.
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Proc Natl Acad Sci U S A, 2007,
104,
1783-1788.
[DOI no: ]
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PubMed id
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Abstract
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The mammalian nuclear pore complex (NPC) is an approximately 120-MDa
proteinaceous assembly consisting of approximately 30 proteins and is the sole
gate in the nuclear envelope. The human protooncogene Nup214 was first
identified as a target for chromosomal translocation involved in leukemogenesis.
Nup214 is located on the cytoplasmic face of the NPC and is implicated in
anchoring the cytoplasmic filaments of the NPC and recruiting the RNA helicase
Ddx19. Here, we present the crystal structure of the human Nup214 N-terminal
domain at 1.65-A resolution. The structure reveals a seven-bladed beta-propeller
followed by a 30-residue C-terminal extended peptide segment, which folds back
onto the beta-propeller and binds to its bottom face. The beta-propeller repeats
lack any recognizable sequence motif and are distinguished by extensive
insertions between the canonical beta-strands. We propose a mechanism by which
the C-terminal peptide extension is involved in NPC assembly.
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Figure 1.
Fig. 1. The structure of the NTD of human Nup214. (A)
Domain structure of Nup214 and Nup159. The construct used for
crystallization is boxed red, and two phosphorylation sites of
the NTD are indicated. Residues observed in the crystal
structures are boxed in blue. (B) Schematic representation of
the NTD structure. The blades of the  -propeller are labeled
from 1 to 7. The CTE is shown in blue, and -strands forming the
double-Velcro closure are indicated with an asterisk. (C) Ribbon
representation of the NTD structure. A 180°-rotated view is
shown on the right. As a reference, the strands of blade 3 are
labeled A–D. The blades of the -propeller and the CTE
are labeled as in B. The helical insertions are shown in pink.
(D) Ribbon representation of side views of the structure of the
NTD. The view on the right is rotated by 180°.
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Figure 3.
Fig. 3. CTE binding to the bottom face of the -propeller. (A) The
surface of the Nup214 -propeller is colored
according to the electrostatic potential from –10 k[B]T (red)
to + 10 k[B]T (blue). The CTE is shown in blue coil
representation with the side chains in ball-and-stick
representation. The black box indicates the region magnified in
D. (B) Hydrophobic interactions of CTE residues Val-410,
Leu-413, and Leu-414 (yellow). (C) Interactions of Leu-420 and
Leu-422 (yellow) with residues of the -propeller. Hydrophobic
pocket-forming residues are shown in gray. The surface of the
-propeller is colored as
in A. (D) Schematic representation of the contacts between the
-propeller and the CTE.
Hydrogen and ionic bonds are indicated by orange dashed lines
and van der Waals contacts with gray grooves.
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