about
Microtubules acquire resistance from mechanical breakage through intralumenal acetylationMicrotubule stabilization drives 3D centrosome migration to initiate primary ciliogenesis.Variation in traction forces during cell cycle progression.Quantitative regulation of the dynamic steady state of actin networksLocal actin nucleation tunes centrosomal microtubule nucleation during passage through mitosis.Spatial integration of mechanical forces by α-actinin establishes actin network symmetryTailoring cryo-electron microscopy grids by photo-micropatterning for in-cell structural studiesLattice defects induce microtubule self-renewalActin filaments regulate microtubule growth at the centrosome
P50
Q39306156-F5710D6C-F339-427B-BD55-F301ACA6989CQ47674642-C32D2556-0383-41C1-8008-64998DDCAEE3Q48042542-49F7C04E-2344-4847-BD66-17350C2684FEQ64092592-91CE261C-ABEB-4498-A5C0-ED8309F2BFBDQ64888627-E5991F53-90EF-47BC-8E9C-0AF4B8C2D66DQ90730539-910CA3E2-0FBC-4A17-ABA8-191E7BF14C04Q91330164-46264C5E-22FF-4CBD-BF75-50A49547E0DAQ92189133-29E9C85C-209C-4B8F-B0B4-FCF8217AB44BQ92563659-846C11D5-266F-4E6D-B9CA-905C84F11094
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Manuel Théry
@ast
Manuel Théry
@en
Manuel Théry
@es
Manuel Théry
@nl
type
label
Manuel Théry
@ast
Manuel Théry
@en
Manuel Théry
@es
Manuel Théry
@nl
prefLabel
Manuel Théry
@ast
Manuel Théry
@en
Manuel Théry
@es
Manuel Théry
@nl
P106
P21
P31
P496
0000-0002-9968-1779