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PDBsum entry 4ba3
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Protein transport/peptide
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PDB id
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4ba3
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PDB id:
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| Name: |
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Protein transport/peptide
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Title:
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Mimp_alphadibb_a89nls
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Structure:
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Importin subunit alpha-2. Chain: a. Fragment: nls binding domain, residues 70-529. Synonym: importin alpha p1, karyopherin subunit alpha-2, pendulin, pore targeting complex 58 kda subunit, ptac58, rag cohort protein 1, srp1-alpha. Engineered: yes. A89nls. Chain: b.
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Source:
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Mus musculus. House mouse. Organism_taxid: 10090. Expressed in: escherichia coli. Expression_system_taxid: 469008. Synthetic construct. Organism_taxid: 32630.
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Resolution:
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2.10Å
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R-factor:
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0.186
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R-free:
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0.204
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Authors:
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C.-W.Chang,R.L.M.Counago,S.J.Williams,M.Boden,B.Kobe
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Key ref:
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C.W.Chang
et al.
(2012).
Crystal structure of rice importin-α and structural basis of its interaction with plant-specific nuclear localization signals.
Plant Cell,
24,
5074-5088.
PubMed id:
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Date:
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11-Sep-12
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Release date:
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09-Jan-13
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PROCHECK
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Headers
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References
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P52293
(IMA1_MOUSE) -
Importin subunit alpha-1 from Mus musculus
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Seq:
Struc:
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529 a.a.
428 a.a.
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Key: |
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PfamA domain |
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Secondary structure |
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CATH domain |
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Plant Cell
24:5074-5088
(2012)
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PubMed id:
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Crystal structure of rice importin-α and structural basis of its interaction with plant-specific nuclear localization signals.
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C.W.Chang,
R.L.Couñago,
S.J.Williams,
M.Bodén,
B.Kobe.
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ABSTRACT
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In the classical nucleocytoplasmic import pathway, nuclear localization signals
(NLSs) in cargo proteins are recognized by the import receptor importin-α.
Importin-α has two separate NLS binding sites (the major and the minor site),
both of which recognize positively charged amino acid clusters in NLSs. Little
is known about the molecular basis of the unique features of the classical
nuclear import pathway in plants. We determined the crystal structure of rice
(Oryza sativa) importin-α1a at 2-Å resolution. The structure reveals that the
autoinhibitory mechanism mediated by the importin-β binding domain of
importin-α operates in plants, with NLS-mimicking sequences binding to both
minor and major NLS binding sites. Consistent with yeast and mammalian proteins,
rice importin-α binds the prototypical NLS from simian virus 40 large T-antigen
preferentially at the major NLS binding site. We show that two NLSs, previously
described as plant specific, bind to and are functional with plant, mammalian,
and yeast importin-α proteins but interact with rice importin-α more strongly.
The crystal structures of their complexes with rice importin-α show that they
bind to the minor NLS binding site. By contrast, the crystal structures of their
complexes with mouse (Mus musculus) importin-α show preferential binding to the
major NLS binding site. Our results reveal the molecular basis of a number of
features of the classical nuclear transport pathway specific to plants.
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