Literature DB >> 18988731

The crystal structure of mouse VDAC1 at 2.3 A resolution reveals mechanistic insights into metabolite gating.

Rachna Ujwal1, Duilio Cascio, Jacques-Philippe Colletier, Salem Faham, Jun Zhang, Ligia Toro, Peipei Ping, Jeff Abramson.   

Abstract

The voltage-dependent anion channel (VDAC) constitutes the major pathway for the entry and exit of metabolites across the outer membrane of the mitochondria and can serve as a scaffold for molecules that modulate the organelle. We report the crystal structure of a beta-barrel eukaryotic membrane protein, the murine VDAC1 (mVDAC1) at 2.3 A resolution, revealing a high-resolution image of its architecture formed by 19 beta-strands. Unlike the recent NMR structure of human VDAC1, the position of the voltage-sensing N-terminal segment is clearly resolved. The alpha-helix of the N-terminal segment is oriented against the interior wall, causing a partial narrowing at the center of the pore. This segment is ideally positioned to regulate the conductance of ions and metabolites passing through the VDAC pore.

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Year:  2008        PMID: 18988731      PMCID: PMC2584669          DOI: 10.1073/pnas.0809634105

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  44 in total

1.  Bcl-2 family proteins regulate the release of apoptogenic cytochrome c by the mitochondrial channel VDAC.

Authors:  S Shimizu; M Narita; Y Tsujimoto
Journal:  Nature       Date:  1999-06-03       Impact factor: 49.962

2.  Structure and mechanism of the lactose permease of Escherichia coli.

Authors:  Jeff Abramson; Irina Smirnova; Vladimir Kasho; Gillian Verner; H Ronald Kaback; So Iwata
Journal:  Science       Date:  2003-08-01       Impact factor: 47.728

3.  On the role of VDAC in apoptosis: fact and fiction.

Authors:  Tatiana K Rostovtseva; Wenzhi Tan; Marco Colombini
Journal:  J Bioenerg Biomembr       Date:  2005-06       Impact factor: 2.945

Review 4.  Molecular genetics of the VDAC ion channel: structural model and sequence analysis.

Authors:  M Forte; H R Guy; C A Mannella
Journal:  J Bioenerg Biomembr       Date:  1987-08       Impact factor: 2.945

5.  Bacterial expression and characterization of the mitochondrial outer membrane channel. Effects of n-terminal modifications.

Authors:  D A Koppel; K W Kinnally; P Masters; M Forte; E Blachly-Dyson; C A Mannella
Journal:  J Biol Chem       Date:  1998-05-29       Impact factor: 5.157

6.  Reconstitution in planar lipid bilayers of a voltage-dependent anion-selective channel obtained from paramecium mitochondria.

Authors:  S J Schein; M Colombini; A Finkelstein
Journal:  J Membr Biol       Date:  1976-12-28       Impact factor: 1.843

7.  Hexokinase receptor complex in hepatoma mitochondria: evidence from N,N'-dicyclohexylcarbodiimide-labeling studies for the involvement of the pore-forming protein VDAC.

Authors:  R A Nakashima; P S Mangan; M Colombini; P L Pedersen
Journal:  Biochemistry       Date:  1986-03-11       Impact factor: 3.162

8.  Rat brain hexokinase: the hydrophobic N-terminus of the mitochondrially bound enzyme is inserted in the lipid bilayer.

Authors:  G C Xie; J E Wilson
Journal:  Arch Biochem Biophys       Date:  1988-12       Impact factor: 4.013

9.  The evolutionary history of mitochondrial porins.

Authors:  Matthew J Young; Denice C Bay; Georg Hausner; Deborah A Court
Journal:  BMC Evol Biol       Date:  2007-02-28       Impact factor: 3.260

10.  Structure of the outer mitochondrial membrane: ordered arrays of porelike subunits in outer-membrane fractions from Neurospora crassa mitochondria.

Authors:  C A Mannella
Journal:  J Cell Biol       Date:  1982-09       Impact factor: 10.539
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  226 in total

1.  Predicting three-dimensional structures of transmembrane domains of β-barrel membrane proteins.

Authors:  Hammad Naveed; Yun Xu; Ronald Jackups; Jie Liang
Journal:  J Am Chem Soc       Date:  2012-01-12       Impact factor: 15.419

2.  Structure-based analysis of VDAC1 protein: defining oligomer contact sites.

Authors:  Shay Geula; Hammad Naveed; Jie Liang; Varda Shoshan-Barmatz
Journal:  J Biol Chem       Date:  2011-11-23       Impact factor: 5.157

3.  Affixing N-terminal α-helix to the wall of the voltage-dependent anion channel does not prevent its voltage gating.

Authors:  Oscar Teijido; Rachna Ujwal; Carl-Olof Hillerdal; Lisen Kullman; Tatiana K Rostovtseva; Jeff Abramson
Journal:  J Biol Chem       Date:  2012-01-24       Impact factor: 5.157

Review 4.  Structures of membrane proteins.

Authors:  Kutti R Vinothkumar; Richard Henderson
Journal:  Q Rev Biophys       Date:  2010-02       Impact factor: 5.318

5.  Recent Advances in the Application of Solution NMR Spectroscopy to Multi-Span Integral Membrane Proteins.

Authors:  Hak Jun Kim; Stanley C Howell; Wade D Van Horn; Young Ho Jeon; Charles R Sanders
Journal:  Prog Nucl Magn Reson Spectrosc       Date:  2009-11-01       Impact factor: 9.795

6.  Voltage dependent anion channel-1 (VDAC-1) as an anti-cancer target.

Authors:  Saroj P Mathupala; Peter L Pedersen
Journal:  Cancer Biol Ther       Date:  2010-06-21       Impact factor: 4.742

7.  Functional dynamics in the voltage-dependent anion channel.

Authors:  Saskia Villinger; Rodolfo Briones; Karin Giller; Ulrich Zachariae; Adam Lange; Bert L de Groot; Christian Griesinger; Stefan Becker; Markus Zweckstetter
Journal:  Proc Natl Acad Sci U S A       Date:  2010-12-10       Impact factor: 11.205

8.  Modulation of plant mitochondrial VDAC by phytosterols.

Authors:  Lamia Mlayeh; Sunita Chatkaew; Marc Léonetti; Fabrice Homblé
Journal:  Biophys J       Date:  2010-10-06       Impact factor: 4.033

Review 9.  New amphiphiles for membrane protein structural biology.

Authors:  Qinghai Zhang; Houchao Tao; Wen-Xu Hong
Journal:  Methods       Date:  2011-09-20       Impact factor: 3.608

Review 10.  VDAC Regulation: A Mitochondrial Target to Stop Cell Proliferation.

Authors:  Diana Fang; Eduardo N Maldonado
Journal:  Adv Cancer Res       Date:  2018-03-02       Impact factor: 6.242
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