Processive Movement of MreB-Associated Cell Wall Biosynthetic Complexes in Bacteria

Processive Movement of MreB-Associated Cell Wall Biosynthetic Complexes in Bacteria

The peptidoglycan cell wall and the actin-like MreB cytoskeleton are major determinants of cell shape in rod-shaped bacteria. The prevailing model postulates that helical, membrane-associated MreB filaments organize elongation-specific peptidoglycan-synthesizing complexes along sidewalls. We used to...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2011-07, Vol.333 (6039), p.225-228
Hauptverfasser: Domínguez-Escobar, Julia, Chastanet, Arnaud, Crevenna, Alvaro H., Fromion, Vincent, Wedlich-Söldner, Roland, Carballido-López, Rut
Format: Artikel
Sprache:eng
Schlagworte:
Agricultural sciences
Anti-Bacterial Agents - pharmacology
Bacillus subtilis
Bacillus subtilis - growth & development
Bacillus subtilis - metabolism
Bacillus subtilis - ultrastructure
Bacteria
Bacterial proteins
Bacterial Proteins - chemistry
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Bacteriology
Biological and medical sciences
Biosynthesis
Cell growth
Cell Membrane - metabolism
Cell motility
Cell Wall - metabolism
Cell Wall - ultrastructure
Cell walls
Cellular biology
Cytoskeleton
Diffusion
Elongation
Enzymes
Filaments
Fluorescence
Fundamental and applied biological sciences. Psychology
Helical
Life Sciences
Membrane Proteins - chemistry
Membrane Proteins - metabolism
Microbiology
Microscopy, Fluorescence
Models, Biological
Morphogenesis
Morphology
Morphology, structure, chemical composition
Motion
Mutation
Peptidoglycan - metabolism
Polymerization
Polymers
Protein isoforms
Protein Isoforms - chemistry
Protein Isoforms - metabolism
Recombinant Fusion Proteins - chemistry
Recombinant Fusion Proteins - metabolism
rev genes
Synthesis
Trajectories
Walls
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Zusammenfassung:The peptidoglycan cell wall and the actin-like MreB cytoskeleton are major determinants of cell shape in rod-shaped bacteria. The prevailing model postulates that helical, membrane-associated MreB filaments organize elongation-specific peptidoglycan-synthesizing complexes along sidewalls. We used total internal reflection fluorescence microscopy to visualize the dynamic relation between MreB isoforms and cell wall synthesis in live Bacillus subtilis cells. During exponential growth, MreB proteins did not form helical structures. Instead, together with other morphogenetic factors, they assembled into discrete patches that moved processively along peripheral tracks perpendicular to the cell axis. Patch motility was largely powered by cell wall synthesis, and MreB polymers restricted diffusion of patch components in the membrane and oriented patch motion.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1203466