Structure. 2004 Oct;12(10):1901-7.

The crystal structure of the reduced, Zn2+-bound form of the B. subtilis Hsp33 chaperone and its implications for the activation mechanism.

Janda I, Devedjiev Y, Derewenda U, Dauter Z, Bielnicki J, Cooper DR, Graf PC, Joachimiak A, Jakob U, Derewenda ZS.

Department of Molecular Physiology and Biological Physics, University of Virginia, Charlottesville, VA 22908, USA.

The bacterial heat shock protein Hsp33 is a redox-regulated chaperone activated by oxidative stress. In response to oxidation, four cysteines within a Zn2+ binding C-terminal domain form two disulfide bonds with concomitant release of the metal. This leads to the formation of the biologically active Hsp33 dimer. The crystal structure of the N-terminal domain of the E. coli protein has been reported, but neither the structure of the Zn2+ binding motif nor the nature of its regulatory interaction with the rest of the protein are known. Here we report the crystal structure of the full-length B. subtilis Hsp33 in the reduced form. The structure of the N-terminal, dimerization domain is similar to that of the E. coli protein, although there is no domain swapping. The Zn2+ binding domain is clearly resolved showing the details of the tetrahedral coordination of Zn2+ by four thiolates. We propose a structure-based activation pathway for Hsp33. Copyright 2004 Elsevier Ltd.

PMID: 15458638 [PubMed - indexed for MEDLINE]

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Supplemental Content

Activation of the redox-regulated chaperone Hsp33 by domain unfolding.
J Biol Chem. 2004 May 7; 279(19):20529-38. Epub 2004 Mar 15.

[J Biol Chem. 2004]
The zinc-dependent redox switch domain of the chaperone Hsp33 has a novel fold.
J Mol Biol. 2004 Aug 20; 341(4):893-9.

[J Mol Biol. 2004]
Crystal structure of proteolytic fragments of the redox-sensitive Hsp33 with constitutive chaperone activity.
Nat Struct Biol. 2001 May; 8(5):459-66.

[Nat Struct Biol. 2001]
ReviewRedox-regulated molecular chaperones.
Cell Mol Life Sci. 2002 Oct; 59(10):1624-31.

[Cell Mol Life Sci. 2002]
ReviewZinc center as redox switch--new function for an old motif.
Antioxid Redox Signal. 2006 May-Jun; 8(5-6):835-46.

[Antioxid Redox Signal. 2006]
» See reviews... | » See all...

Cited by 2 PubMed Central articles

Structure and function of Bacillus subtilis YphP, a prokaryotic disulfide isomerase with a CXC catalytic motif .
Derewenda U, Boczek T, Gorres KL, Yu M, Hung LW, Cooper D, Joachimiak A, Raines RT, Derewenda ZS. Biochemistry. 2009 Sep 15; 48(36):8664-71.

[Biochemistry. 2009]
Systematic replacement of lysine with glutamine and alanine in Escherichia coli malate synthase G: effect on crystallization.
Anstrom DM, Colip L, Moshofsky B, Hatcher E, Remington SJ. Acta Crystallogr Sect F Struct Biol Cryst Commun. 2005 Dec 1; 61(Pt 12):1069-74. Epub 2005 Nov 24.

[Acta Crystallogr Sect F Struct Biol Cryst Commun. 2005]

Structures reported by this article

Crystal Structure Of The Bacillus Subtilis Hsp33

PDB: 1VZY

Source: Bacillus subtilis

Method: X-Ray Diffraction | Resolution: 1.97 Å

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