Microtubules self-repair in response to mechanical stress.
about
Self-repair promotes microtubule rescue.αTAT1 controls longitudinal spreading of acetylation marks from open microtubules extremities.Single Molecule Investigation of Kinesin-1 Motility Using Engineered Microtubule Defects.Extracting microtubule networks from superresolution single-molecule localization microscopy data.Direct measurement of conformational strain energy in protofilaments curling outward from disassembling microtubule tips.Intermediate filament dynamics: What we can see now and why it matters.Microtubule Defects Influence Kinesin-Based Transport In Vitro.Dynamic curvature regulation accounts for the symmetric and asymmetric beats of Chlamydomonas flagella.Doublecortin Is Excluded from Growing Microtubule Ends and Recognizes the GDP-Microtubule LatticeA conceptual view at microtubule plus end dynamics in neuronal axons.Microtubule aging probed by microfluidics-assisted tubulin washout.Non-equilibrium assembly of microtubules: from molecules to autonomous chemical robots.Microtubule Destabilization Paves the Way to Parkinson's Disease.Tubulin acetylation protects long-lived microtubules against mechanical ageing.Microtubules acquire resistance from mechanical breakage through intralumenal acetylationDissipative out-of-equilibrium assembly of man-made supramolecular materials.The size of the EB cap determines instantaneous microtubule stability.High-Resolution Imaging of a Single Gliding Protofilament of Tubulins by HS-AFM.Manipulation and quantification of microtubule lattice integrity.Subnanometre-resolution structure of the doublet microtubule reveals new classes of microtubule-associated proteins.HtrA1 Mediated Intracellular Effects on Tubulin Using a Polarized RPE Disease Model.Physical Limits on the Precision of Mitotic Spindle Positioning by Microtubule Pushing forces: Mechanics of mitotic spindle positioning.Acetylated Microtubules Are Preferentially Bundled Leading to Enhanced Kinesin-1 Motility.Tau can switch microtubule network organizations: from random networks to dynamic and stable bundles.Multifunctional Energy Storage and Conversion Devices.Biological filaments: Self-healing microtubules.Modeling the effects of lattice defects on microtubule breaking and healing.Microtubules soften due to cross-sectional flatteningMicrotubule architecture in vitro and in cells revealed by cryo-electron tomographyCell polarity: having and making sense of direction-on the evolutionary significance of the primary cilium/centrosome organ in Metazoa
P2860
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P2860
Microtubules self-repair in response to mechanical stress.
description
2015 nî lūn-bûn
@nan
2015 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Microtubules self-repair in response to mechanical stress
@nl
Microtubules self-repair in response to mechanical stress.
@ast
Microtubules self-repair in response to mechanical stress.
@en
type
label
Microtubules self-repair in response to mechanical stress
@nl
Microtubules self-repair in response to mechanical stress.
@ast
Microtubules self-repair in response to mechanical stress.
@en
prefLabel
Microtubules self-repair in response to mechanical stress
@nl
Microtubules self-repair in response to mechanical stress.
@ast
Microtubules self-repair in response to mechanical stress.
@en
P2093
P2860
P921
P3181
P356
P1433
P1476
Microtubules self-repair in response to mechanical stress
@en
P2093
Jérémie Gaillard
Karin John
Laurent Blanchoin
Manuel Théry
P2860
P2888
P304
P3181
P356
10.1038/NMAT4396
P407
P577
2015-09-07T00:00:00Z
P6179
1050449790