Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.
about
New approaches for understanding the nuclear force balance in living, adherent cellsProbing cytoskeletal pre-stress and nuclear mechanics in endothelial cells with spatiotemporally controlled (de-)adhesion kinetics on micropatterned substrates.Cell Microharpooning to Study Nucleo-Cytoskeletal Coupling.Vertical uniformity of cells and nuclei in epithelial monolayers.Nesprin-2G, a Component of the Nuclear LINC Complex, Is Subject to Myosin-Dependent Tension.Nuclear envelope rupture and repair during cancer cell migration.Ultradonut topology of the nuclear envelope.The mammalian LINC complex regulates genome transcriptional responses to substrate rigidityCofilin Regulates Nuclear Architecture through a Myosin-II Dependent Mechanotransduction Module.Dynamic, mechanical integration between nucleus and cell- where physics meets biologyThe nucleus is a conserved mechanosensation and mechanoresponse organelle.An unresolved LINC in the nuclear envelope.The Nuclear Option: Evidence Implicating the Cell Nucleus in Mechanotransduction.Mechanosensing by the nucleus: From pathways to scaling relationships.The assembly and function of perinuclear actin cap in migrating cells.Bursting the Bubble - Nuclear Envelope Rupture as a Path to Genomic Instability?Nuclear envelope: a new frontier in plant mechanosensing?Cancer cell migration in 3D tissue: negotiating space by proteolysis and nuclear deformability.A Perspective on the Experimental Techniques for Studying Lamins.Role of the Nucleus as a Sensor of Cell Environment Topography.Separate roles for chromatin and lamins in nuclear mechanics.Chromatin histone modifications and rigidity affect nuclear morphology independent of lamins.Mechanics and Buckling of Biopolymeric Shells and Cell Nuclei.Rupture Dynamics and Chromatin Herniation in Deformed Nuclei.The nucleus is irreversibly shaped by motion of cell boundaries in cancer and non-cancer cells.Centrifugal Displacement of Nuclei Reveals Multiple LINC Complex Mechanisms for Homeostatic Nuclear Positioning.Ari-1 Regulates Myonuclear Organization Together with Parkin and Is Associated with Aortic Aneurysms.
P2860
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P2860
Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.
description
2015 nî lūn-bûn
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2015年の論文
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2015年論文
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2015年論文
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2015年論文
@zh-hk
2015年論文
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2015年論文
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2015年论文
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2015年论文
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2015年论文
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name
Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.
@ast
Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.
@en
type
label
Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.
@ast
Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.
@en
prefLabel
Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.
@ast
Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.
@en
P2093
P2860
P356
P1476
Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell
@en
P2093
Jeffrey A Nickerson
Richard B Dickinson
Srujana Neelam
T J Chancellor
Tanmay P Lele
P2860
P304
P356
10.1073/PNAS.1502111112
P407
P577
2015-04-21T00:00:00Z