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1gk4

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==Overview==
==Overview==
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Intermediate filaments (IFs) are key components of the cytoskeleton in, higher eukaryotic cells. The elementary IF 'building block' is an, elongated coiled-coil dimer consisting of four consecutive alpha-helical, segments. The segments 1A and 2B include highly conserved sequences and, are critically involved in IF assembly. Based on the crystal structures of, three human vimentin fragments at 1.4-2.3 A resolution (PDB entries 1gk4, 1gk6 and 1gk7), we have established the molecular organization of these, two segments. The fragment corresponding to segment 1A forms a single, amphipatic alpha-helix, which is compatible with a coiled-coil geometry., While this segment might yield a coiled coil within an isolated dimer, monomeric 1A helices are likely to play a role in specific dimer-dimer, interactions during IF assembly. The 2B segment reveals a double-stranded, coiled coil, which unwinds near residue Phe351 to accommodate a 'stutter'., A fragment containing the last seven heptads of 2B interferes heavily with, IF assembly and also transforms mature vimentin filaments into a new kind, of structure. These results provide the first insight into the, architecture and functioning of IFs at the atomic level.
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Intermediate filaments (IFs) are key components of the cytoskeleton in higher eukaryotic cells. The elementary IF 'building block' is an elongated coiled-coil dimer consisting of four consecutive alpha-helical segments. The segments 1A and 2B include highly conserved sequences and are critically involved in IF assembly. Based on the crystal structures of three human vimentin fragments at 1.4-2.3 A resolution (PDB entries 1gk4, 1gk6 and 1gk7), we have established the molecular organization of these two segments. The fragment corresponding to segment 1A forms a single, amphipatic alpha-helix, which is compatible with a coiled-coil geometry. While this segment might yield a coiled coil within an isolated dimer, monomeric 1A helices are likely to play a role in specific dimer-dimer interactions during IF assembly. The 2B segment reveals a double-stranded coiled coil, which unwinds near residue Phe351 to accommodate a 'stutter'. A fragment containing the last seven heptads of 2B interferes heavily with IF assembly and also transforms mature vimentin filaments into a new kind of structure. These results provide the first insight into the architecture and functioning of IFs at the atomic level.
==Disease==
==Disease==
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[[Category: Geisler, N.]]
[[Category: Geisler, N.]]
[[Category: Herrmann, H.]]
[[Category: Herrmann, H.]]
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[[Category: Strelkov, S.V.]]
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[[Category: Strelkov, S V.]]
[[Category: Zimbelmann, R.]]
[[Category: Zimbelmann, R.]]
[[Category: ACT]]
[[Category: ACT]]
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[[Category: stutter]]
[[Category: stutter]]
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Sun Feb 3 09:40:35 2008''
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 12:50:57 2008''

Revision as of 10:50, 21 February 2008

Image:1gk4.gif

1gk4, resolution 2.30Å

Drag the structure with the mouse to rotate

HUMAN VIMENTIN COIL 2B FRAGMENT (CYS2)

Contents

Overview

Intermediate filaments (IFs) are key components of the cytoskeleton in higher eukaryotic cells. The elementary IF 'building block' is an elongated coiled-coil dimer consisting of four consecutive alpha-helical segments. The segments 1A and 2B include highly conserved sequences and are critically involved in IF assembly. Based on the crystal structures of three human vimentin fragments at 1.4-2.3 A resolution (PDB entries 1gk4, 1gk6 and 1gk7), we have established the molecular organization of these two segments. The fragment corresponding to segment 1A forms a single, amphipatic alpha-helix, which is compatible with a coiled-coil geometry. While this segment might yield a coiled coil within an isolated dimer, monomeric 1A helices are likely to play a role in specific dimer-dimer interactions during IF assembly. The 2B segment reveals a double-stranded coiled coil, which unwinds near residue Phe351 to accommodate a 'stutter'. A fragment containing the last seven heptads of 2B interferes heavily with IF assembly and also transforms mature vimentin filaments into a new kind of structure. These results provide the first insight into the architecture and functioning of IFs at the atomic level.

Disease

Known disease associated with this structure: Inflammatory response, modulation of OMIM:[607918]

About this Structure

1GK4 is a Single protein structure of sequence from Homo sapiens with as ligand. Known structural/functional Site: . Full crystallographic information is available from OCA.

Reference

Conserved segments 1A and 2B of the intermediate filament dimer: their atomic structures and role in filament assembly., Strelkov SV, Herrmann H, Geisler N, Wedig T, Zimbelmann R, Aebi U, Burkhard P, EMBO J. 2002 Mar 15;21(6):1255-66. PMID:11889032

Page seeded by OCA on Thu Feb 21 12:50:57 2008

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