Hugo Wioland
Hugo Wioland
Institut Jacques Monod, Paris 7 Diderot
Verified email at ijm.fr - Homepage
Title
Cited by
Cited by
Year
Confinement Stabilizes a Bacterial Suspension into a Spiral Vortex
H Wioland, FG Woodhouse, J Dunkel, JO Kessler, RE Goldstein
Physical Review Letters 110 (26), 268102, 2013
2592013
Fluid flows created by swimming bacteria drive self-organization in confined suspensions
E Lushi, H Wioland, RE Goldstein
Proceedings of the National Academy of Sciences 111 (27), 9733–9738, 2014
2542014
Directed collective motion of bacteria under channel confinement
H Wioland, E Lushi, RE Goldstein
New Journal of Physics 18 (7), 075002, 2016
1282016
Ferromagnetic and antiferromagnetic order in bacterial vortex lattices
H Wioland, FG Woodhouse, J Dunkel, RE Goldstein
Nature physics 12 (4), 341-345, 2016
1002016
ADF/cofilin accelerates actin dynamics by severing filaments and promoting their depolymerization at both ends
H Wioland, B Guichard, Y Senju, S Myram, P Lappalainen, A Jégou, ...
Current Biology 27 (13), 1956-1967. e7, 2017
742017
Oxidation of F-actin controls the terminal steps of cytokinesis
S Frémont, H Hammich, J Bai, H Wioland, K Klinkert, M Rocancourt, ...
Nature communications 8 (1), 1-16, 2017
682017
Torsional stress generated by ADF/cofilin on cross-linked actin filaments boosts their severing
H Wioland, A Jegou, G Romet-Lemonne
Proceedings of the National Academy of Sciences 116 (7), 2595-2602, 2019
262019
Modulation of formin processivity by profilin and mechanical tension
L Cao, M Kerleau, EL Suzuki, H Wioland, S Jouet, B Guichard, M Lenz, ...
Elife 7, e34176, 2018
162018
Mechanism of synergistic actin filament pointed end depolymerization by cyclase-associated protein and cofilin
T Kotila, H Wioland, G Enkavi, K Kogan, I Vattulainen, A Jégou, ...
Nature communications 10 (1), 1-14, 2019
102019
Quantitative variations with pH of actin depolymerizing factor/Cofilin’s multiple actions on actin filaments
H Wioland, A Jegou, G Romet-Lemonne
Biochemistry 58 (1), 40-47, 2018
82018
Actin reduction by MsrB2 is a key component of the cytokinetic abscission checkpoint and prevents tetraploidy
J Bai, H Wioland, T Advedissian, F Cuvelier, G Romet-Lemonne, ...
Proceedings of the National Academy of Sciences 117 (8), 4169-4179, 2020
42020
The advantages of microfluidics to study actin biochemistry and biomechanics
H Wioland, E Suzuki, L Cao, G Romet-Lemonne, A Jegou
Journal of Muscle Research and Cell Motility, 1-14, 2019
12019
Self-organisation of confined active matter
H Wioland
University of Cambridge, 2015
12015
Dynamics of Tpm1. 8 domains on actin filaments with single molecule resolution
I Bareja, H Wioland, M Janco, PR Nicovich, A Jégou, G Romet-Lemonne, ...
Molecular Biology of the Cell, mbc. E19-10-0586, 2020
2020
Actin filament oxidation by MICAL1 suppresses protections from cofilin-induced disassembly
H Wioland, S Frémont, B Guichard, A Echard, A Jégou, ...
bioRxiv, 2020
2020
Twinfilin uncaps filament barbed ends to promote turnover of lamellipodial actin networks
M Hakala, H Wioland, M Tolonen, A Jegou, G Romet-Lemonne, ...
bioRxiv, 864769, 2019
2019
Fluid flows created by swimming bacteria drive self-organization in confined suspensions
E Lushi, H Wioland, R Goldstein
APS 2016, S35. 001, 2016
2016
Spontaneous ordering of a bacterial drop into a spiral vortex
H Wioland, E Lushi, RE Goldstein
arXiv preprint arXiv:1310.3186, 2013
2013
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Articles 1–18