Directly probing the mechanical properties of the spindle and its matrix.
about
Phase transition of spindle-associated protein regulate spindle apparatus assemblyTowards a quantitative understanding of mitotic spindle assembly and mechanicsLaser microsurgery reveals conserved viscoelastic behavior of the kinetochore.Chromosome position at the spindle equator is regulated by chromokinesin and a bipolar microtubule array.Microneedle-based analysis of the micromechanics of the metaphase spindle assembled in Xenopus laevis egg extractsFunctional states of kinetochores revealed by laser microsurgery and fluorescent speckle microscopy.Using micromanipulation to analyze control of vertebrate meiotic spindle sizeInsights into the micromechanical properties of the metaphase spindleSpindle pole mechanics studied in mitotic asters: dynamic distribution of spindle forces through compliant linkages.The mesh is a network of microtubule connectors that stabilizes individual kinetochore fibers of the mitotic spindle.Active contraction of microtubule networks.Mechanical properties of spindle poles are symmetrically balanced.Micromechanics of the vertebrate meiotic spindle examined by stretching along the pole-to-pole axis.A computational model for the formation of lamin-B mitotic spindle envelope and matrix.Metaphase Spindle Assembly.Do nuclear envelope and intranuclear proteins reorganize during mitosis to form an elastic, hydrogel-like spindle matrix?Modelling chromosome dynamics in mitosis: a historical perspective on models of metaphase and anaphase in eukaryotic cells.Mapping Load-Bearing in the Mammalian Spindle Reveals Local Kinetochore Fiber Anchorage that Provides Mechanical Isolation and Redundancy.High-quality frozen extracts of Xenopus laevis eggs reveal size-dependent control of metaphase spindle micromechanics.XMAP215 activity sets spindle length by controlling the total mass of spindle microtubules.
P2860
Q24338855-D15CF9C5-CEE4-4E6A-8F08-52FC82BAAECDQ24633928-D6652605-1286-4A91-8869-790724D302A0Q27309203-6DFD8375-C5D4-486C-99BF-B007F91C5E67Q30547575-D98DDA7C-C899-49B1-B209-A21C117D6FF4Q33980347-3083B2D0-3289-4468-AD33-60502C7B6788Q34059454-10C76E42-9254-4DDF-ACDA-79A0B28799D8Q34138127-490496B7-844C-43D9-B6FB-2AE036982CB9Q34630610-33FF306E-C489-433A-91F6-E6810C5BA06DQ34772202-D7760074-4CC8-4E6C-B15C-2199BD01D6C2Q35668564-95C04617-B2E4-4DD1-86B2-BAEB7C0C66FFQ36610077-C976F415-E53E-44CE-86B0-584DBEAADDB7Q37621507-698ED313-4E04-4334-903D-1ABC298373E7Q37621924-AEF3DF39-5A97-431E-9B94-3E5624595175Q37718329-3A6BA9EA-EEA0-48B1-8350-7164EE10BA28Q37728181-96272A58-8E5E-41A0-A20E-4C91E1C01B90Q37832979-AAFA23E0-F1A1-4F81-9B02-9A694DBDDD8FQ38218123-8DE63EEB-1D83-4EF5-B96A-121599738DA7Q38687624-F1738D0E-F547-47D5-BACE-E377A03F1F26Q38737481-0B6B0970-B5AF-42B0-A812-A90FDC2AB6D9Q47709213-C0691E0B-1FA5-41BB-AB5E-71AA028BE85A
P2860
Directly probing the mechanical properties of the spindle and its matrix.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Directly probing the mechanical properties of the spindle and its matrix.
@ast
Directly probing the mechanical properties of the spindle and its matrix.
@en
type
label
Directly probing the mechanical properties of the spindle and its matrix.
@ast
Directly probing the mechanical properties of the spindle and its matrix.
@en
prefLabel
Directly probing the mechanical properties of the spindle and its matrix.
@ast
Directly probing the mechanical properties of the spindle and its matrix.
@en
P2093
P2860
P356
P1476
Directly probing the mechanical properties of the spindle and its matrix.
@en
P2093
Alexandre Matov
Edward D Salmon
Jesse C Gatlin
Timothy J Mitchison
P2860
P304
P356
10.1083/JCB.200907110
P407
P577
2010-02-01T00:00:00Z