Martin Loose
Cited by
Cited by
Spatial regulators for bacterial cell division self-organize into surface waves in vitro
M Loose, E Fischer-Friedrich, J Ries, K Kruse, P Schwille
Science 320 (5877), 789-792, 2008
The bacterial cell division proteins FtsA and FtsZ self-organize into dynamic cytoskeletal patterns
M Loose, TJ Mitchison
Nature cell biology 16 (1), 38-46, 2014
Min protein patterns emerge from rapid rebinding and membrane interaction of MinE
M Loose, E Fischer-Friedrich, C Herold, K Kruse, P Schwille
Nature structural & molecular biology 18 (5), 577, 2011
Protein self-organization: lessons from the min system
M Loose, K Kruse, P Schwille
Annual review of biophysics 40, 315-336, 2011
Geometry sensing by self-organized protein patterns
J Schweizer, M Loose, M Bonny, K Kruse, I Mönch, P Schwille
Proceedings of the National Academy of Sciences 109 (38), 15283-15288, 2012
Spatial organization of cytokinesis signaling reconstituted in a cell-free system
PA Nguyen, AC Groen, M Loose, K Ishihara, M Wühr, CM Field, ...
Science 346 (6206), 244-247, 2014
Chromatin shapes the mitotic spindle
A Dinarina, C Pugieux, MM Corral, M Loose, J Spatz, E Karsenti, ...
Cell 138 (3), 502-513, 2009
Membrane binding of MinE allows for a comprehensive description of Min-protein pattern formation
M Bonny, E Fischer-Friedrich, M Loose, P Schwille, K Kruse
PLoS Comput Biol 9 (12), e1003347, 2013
Biomimetic membrane systems to study cellular organization
M Loose, P Schwille
Journal of structural biology 168 (1), 143-151, 2009
Cell polarity in cerebral cortex development—cellular architecture shaped by biochemical networks
AH Hansen, C Duellberg, C Mieck, M Loose, S Hippenmeyer
Frontiers in cellular neuroscience 11, 176, 2017
Cooperative ordering of treadmilling filaments in cytoskeletal networks of FtsZ and its crosslinker ZapA
P Caldas, M López-Pelegrín, DJG Pearce, NB Budanur, J Brugués, ...
Nature communications 10 (1), 1-13, 2019
Using supported bilayers to study the spatiotemporal organization of membrane-bound proteins
PA Nguyen, CM Field, AC Groen, TJ Mitchison, M Loose
Methods in cell biology 128, 223-241, 2015
Diffusion and capture permits dynamic coupling between treadmilling FtsZ filaments and cell division proteins
N Baranova, P Radler, VM Hernández-Rocamora, C Alfonso, ...
Nature microbiology 5 (3), 407-417, 2020
Single-molecule measurements to study polymerization dynamics of FtsZ-FtsA copolymers
N Baranova, M Loose
Methods in cell biology 137, 355-370, 2017
Reconstitution of protein dynamics involved in bacterial cell division
M Loose, K Zieske, P Schwille
Prokaryotic Cytoskeletons, 419-444, 2017
Stochastic activation and bistability in a Rab GTPase regulatory network
U Bezeljak, H Loya, B Kaczmarek, TE Saunders, M Loose
Proceedings of the National Academy of Sciences 117 (12), 6540-6549, 2020
Computational analysis of filament polymerization dynamics in cytoskeletal networks
P Caldas, P Radler, C Sommer, M Loose
Methods in Cell Biology 158, 145-161, 2020
FtsZ assembles the bacterial cell division machinery by a diffusion-and-capture mechanism
N Baranova, P Radler, VM Hernández-Rocamora, C Alfonso, ...
bioRxiv, 485656, 2018
Spatial Variation of Microtubule Depolymerization in Large Asters
K Ishihara, F Decker, P Caldas, JF Pelletier, M Loose, J Brugués, ...
Molecular Biology of the Cell, mbc. E20-11-0723, 2021
Real-time monitoring of peptidoglycan synthesis by membrane-reconstituted penicillin-binding proteins
VM Hernández-Rocamora, N Baranova, K Peters, E Breukink, M Loose, ...
Elife 10, e61525, 2021
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