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PDBsum entry 3tpm
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Protein transport/transcription
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PDB id
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3tpm
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PDB id:
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Protein transport/transcription
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Title:
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Crystal structure of mal rpel domain in complex with importin-alpha
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Structure:
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Importin subunit alpha-2. Chain: a. Fragment: arm-repeat domain, unp residues 75-496. Synonym: importin alpha p1, karyopherin subunit alpha-2, pendulin, pore targeting complex 58 kda subunit, ptac58, rag cohort protein 1, srp1-alpha. Engineered: yes. Mal. Chain: b.
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Source:
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Mus musculus. Mouse. Organism_taxid: 10090. Gene: kpna2. Expressed in: escherichia coli. Expression_system_taxid: 562. Gene: mkl1. Expression_system_taxid: 562
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Resolution:
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2.10Å
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R-factor:
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0.168
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R-free:
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0.208
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Authors:
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H.Hirano,Y.Matsuura
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Key ref:
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H.Hirano
and
Y.Matsuura
(2011).
Sensing actin dynamics: structural basis for G-actin-sensitive nuclear import of MAL.
Biochem Biophys Res Commun,
414,
373-378.
PubMed id:
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Date:
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08-Sep-11
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Release date:
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12-Oct-11
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PROCHECK
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Headers
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References
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Biochem Biophys Res Commun
414:373-378
(2011)
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PubMed id:
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Sensing actin dynamics: structural basis for G-actin-sensitive nuclear import of MAL.
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H.Hirano,
Y.Matsuura.
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ABSTRACT
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The coordination of cytoskeletal actin dynamics with gene expression
reprogramming is emerging as a crucial mechanism to control diverse cellular
processes, including cell migration, differentiation and neuronal circuit
assembly. The actin-binding transcriptional coactivator MAL (also known as
MRTF-A/MKL1/BSAC) senses G-actin concentration and transduces Rho GTPase signals
to serum response factor (SRF). MAL rapidly shuttles between the cytoplasm and
the nucleus in unstimulated cells but Rho-induced depletion of G-actin leads to
MAL nuclear accumulation and activation of transcription of SRF:MAL-target
genes. Although the molecular and structural basis of actin-regulated
nucleocytoplasmic shuttling of MAL is not understood fully, it is proposed that
nuclear import of MAL is mediated by importin α/β heterodimer, and that
G-actin competes with importin α/β for the binding to MAL. Here we present
structural, biochemical and cell biological evidence that MAL has a classical
bipartite nuclear localization signal (NLS) in the N-terminal 'RPEL' domain
containing Arg-Pro-X-X-X-Glu-Leu (RPEL) motifs. The NLS residues of MAL adopt an
extended conformation and bind along the surface groove of importin-α,
interacting with the major- and minor-NLS binding sites. We also present a
crystal structure of wild-type MAL RPEL domain in complex with five G-actins.
Comparison of the importin-α- and actin-complexes revealed that the binding of
G-actins to MAL is associated with folding of NLS residues into a helical
conformation that is inappropriate for importin-α recognition.
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Links
