Membrane-bound MinDE complex acts as a toggle switch that drives Min oscillation coupled to cytoplasmic depletion of MinD
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Title
Membrane-bound MinDE complex acts as a toggle switch that drives Min oscillation coupled to cytoplasmic depletion of MinD
Authors
Keywords
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Journal
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
Volume 113, Issue 11, Pages E1479-E1488
Publisher
Proceedings of the National Academy of Sciences
Online
2016-02-17
DOI
10.1073/pnas.1600644113
References
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Related references
Note: Only part of the references are listed.- Self-Assembly of MinE on the Membrane Underlies Formation of the MinE Ring to Sustain Function of theEscherichia coliMin System
- (2014) Min Zheng et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- Differential affinities of MinD and MinE to anionic phospholipid influence Min patterning dynamicsin vitro
- (2014) Anthony G. Vecchiarelli et al. MOLECULAR MICROBIOLOGY
- Effective 2D model does not account for geometry sensing by self-organized proteins patterns
- (2014) J. Halatek et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Reconstitution of self-organizing protein gradients as spatial cues in cell-free systems
- (2014) Katja Zieske et al. eLife
- Spatiotemporal organization of microbial cells by protein concentration gradients
- (2013) Daniela Kiekebusch et al. TRENDS IN MICROBIOLOGY
- Membrane Binding of MinE Allows for a Comprehensive Description of Min-Protein Pattern Formation
- (2013) Mike Bonny et al. PLoS Computational Biology
- Reconstitution of Pole-to-Pole Oscillations of Min Proteins in Microengineered Polydimethylsiloxane Compartments
- (2012) Katja Zieske et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- MinD and MinE Interact with Anionic Phospholipids and Regulate Division Plane Formation inEscherichia coli
- (2012) Lars D. Renner et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- Mechanism of the asymmetric activation of the MinD ATPase by MinE
- (2012) Kyung-Tae Park et al. MOLECULAR MICROBIOLOGY
- Surfing biological surfaces: exploiting the nucleoid for partition and transport in bacteria
- (2012) Anthony G. Vecchiarelli et al. MOLECULAR MICROBIOLOGY
- Geometry sensing by self-organized protein patterns
- (2012) J. Schweizer et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- The ParA/MinD family puts things in their place
- (2012) Joe Lutkenhaus TRENDS IN MICROBIOLOGY
- Highly Canalized MinD Transfer and MinE Sequestration Explain the Origin of Robust MinCDE-Protein Dynamics
- (2012) Jacob Halatek et al. Cell Reports
- The Min Oscillator Uses MinD-Dependent Conformational Changes in MinE to Spatially Regulate Cytokinesis
- (2011) Kyung-Tae Park et al. CELL
- Determination of the structure of the MinD-ATP complex reveals the orientation of MinD on the membrane and the relative location of the binding sites for MinE and MinC
- (2011) Wei Wu et al. MOLECULAR MICROBIOLOGY
- Min protein patterns emerge from rapid rebinding and membrane interaction of MinE
- (2011) Martin Loose et al. NATURE STRUCTURAL & MOLECULAR BIOLOGY
- The N-Terminal Amphipathic Helix of the Topological Specificity Factor MinE Is Associated with Shaping Membrane Curvature
- (2011) Yu-Ling Shih et al. PLoS One
- Macromolecule diffusion and confinement in prokaryotic cells
- (2010) Jacek T Mika et al. CURRENT OPINION IN BIOTECHNOLOGY
- ATP control of dynamic P1 ParA-DNA interactions: a key role for the nucleoid in plasmid partition
- (2010) Anthony G. Vecchiarelli et al. MOLECULAR MICROBIOLOGY
- Appropriation of the MinD protein-interaction motif by the dimeric interface of the bacterial cell division regulator MinE
- (2010) H. Ghasriani et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Multiple modes of interconverting dynamic pattern formation by bacterial cell division proteins
- (2010) V. Ivanov et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Direct MinE-membrane interaction contributes to the proper localization of MinDE inE. coli
- (2009) Cheng-Wei Hsieh et al. MOLECULAR MICROBIOLOGY
- Spatial Regulators for Bacterial Cell Division Self-Organize into Surface Waves in Vitro
- (2008) M. Loose et al. SCIENCE
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