Reports

Cryo-Electron Tomography Reveals the Cytoskeletal Structure of Spiroplasma melliferum

Julia Kürner,¹ Achilleas S. Frangakis,^2* Wolfgang Baumeister^1*

Evidence has accumulated recently that not only eukaryotes but also bacteria can have a cytoskeleton. We used cryo–electron tomography to study the three-dimensional structure of Spiroplasma melliferum cells in a close-to-native state at 4-nanometer resolution. We showed that these cells possess two types of filaments arranged in three parallel ribbons underneath the cell membrane. These two filamentous structures are built of the fibril protein and possibly the actin-like protein MreB. On the basis of our structural data, we could model the motility modes of these cells and explain how helical Mollicutes can propel themselves by means of coordinated length changes of their cytoskeletal ribbons.

¹ Department of Structural Biology, Max Planck Institute of Biochemistry, Am Klopferspitz 18, D-82152 Martinsried, Germany.
² Structural and Computational Biology, European Molecular Biology Laboratory (EMBL), Meyerhofstrasse 1, D-69117 Heidelberg, Germany.

^* To whom correspondence should be addressed. E-mail: baumeist{at}biochem.mpg.de (W.B.); frangak{at}embl.de (A.S.F.)

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Challenges and Rewards of Interaction Proteomics.

S. J. Wodak, S. Pu, J. Vlasblom, and B. Seraphin (2009)
Mol. Cell. Proteomics 8, 3-18
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Three-Dimensional Imaging of the Highly Bent Architecture of Bdellovibrio bacteriovorus by Using Cryo-Electron Tomography.

M. J. Borgnia, S. Subramaniam, and J. L. S. Milne (2008)
J. Bacteriol. 190, 2588-2596
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Bacterial Growth and Cell Division: a Mycobacterial Perspective.

E. C. Hett and E. J. Rubin (2008)
Microbiol. Mol. Biol. Rev. 72, 126-156
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Cryo-Electron Tomography Reveals the Comparative Three-Dimensional Architecture of Prochlorococcus, a Globally Important Marine Cyanobacterium.

C. S. Ting, C. Hsieh, S. Sundararaman, C. Mannella, and M. Marko (2007)
J. Bacteriol. 189, 4485-4493
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Functional Taxonomy of Bacterial Hyperstructures.

V. Norris, T. den Blaauwen, A. Cabin-Flaman, R. H. Doi, R. Harshey, L. Janniere, A. Jimenez-Sanchez, D. J. Jin, P. A. Levin, E. Mileykovskaya, et al. (2007)
Microbiol. Mol. Biol. Rev. 71, 230-253
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An Actin Homolog of the Archaeon Thermoplasma acidophilum That Retains the Ancient Characteristics of Eukaryotic Actin.

F. Hara, K. Yamashiro, N. Nemoto, Y. Ohta, S.-i. Yokobori, T. Yasunaga, S.-i. Hisanaga, and A. Yamagishi (2007)
J. Bacteriol. 189, 2039-2045
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The Bacterial Actin-Like Cytoskeleton.

R. Carballido-Lopez (2006)
Microbiol. Mol. Biol. Rev. 70, 888-909
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The Bacterial Cytoskeleton.

Y.-L. Shih and L. Rothfield (2006)
Microbiol. Mol. Biol. Rev. 70, 729-754
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GTPase Activity, Structure, and Mechanical Properties of Filaments Assembled from Bacterial Cytoskeleton Protein MreB.

O. Esue, D. Wirtz, and Y. Tseng (2006)
J. Bacteriol. 188, 968-976
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Protein structure by mechanical triangulation.

H. Dietz and M. Rief (2006)
PNAS 103, 1244-1247
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The Scc Spirochetal Coiled-Coil Protein Forms Helix-Like Filaments and Binds to Nucleic Acids Generating Nucleoprotein Structures.

K. Mazouni, G. Pehau-Arnaudet, P. England, P. Bourhy, I. Saint Girons, and M. Picardeau (2006)
J. Bacteriol. 188, 469-476
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Magnetosomes Are Cell Membrane Invaginations Organized by the Actin-Like Protein MamK.

A. Komeili, Z. Li, D. K. Newman, and G. J. Jensen (2006)
Science 311, 242-245
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High-Resolution Anatomy of a Progressively Pinching Cell Division.

J. R. Maddock (2005)
J. Bacteriol. 187, 6867-6869
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