Assessment of strain field in endothelial cells subjected to uniaxial deformation of their substrate.
about
Abnormal nuclear shape and impaired mechanotransduction in emerin-deficient cellsPolarized actin structural dynamics in response to cyclic uniaxial stretch.Mapping mechanical strain of an endogenous cytoskeletal network in living endothelial cellsA stretching device for high-resolution live-cell imagingThe interaction between nesprins and sun proteins at the nuclear envelope is critical for force transmission between the nucleus and cytoskeleton.Viscoelasticity of human alveolar epithelial cells subjected to stretch.Spatiotemporal analysis of flow-induced intermediate filament displacement in living endothelial cells.A prestressed cable network model of the adherent cell cytoskeleton.Nuclear mechanics during cell migration.Topographic modulation of the orientation and shape of cell nuclei and their influence on the measured elastic modulus of epithelial cells.Nuclear morphology and deformation in engineered cardiac myocytes and tissues.Biophysical assays to probe the mechanical properties of the interphase cell nucleus: substrate strain application and microneedle manipulation.Mechanical properties of the cell nucleus and the effect of emerin deficiency.Lamin A/C deficiency causes defective nuclear mechanics and mechanotransduction.Mechanobiology in lung epithelial cells: measurements, perturbations, and responsesNuclear mechanics in diseaseMechanics of the nucleus.Assays to measure nuclear mechanics in interphase cells.Cell Mechanosensitivity is Enabled by the LINC Nuclear Complex.Nuclear mechanics and mechanotransduction in health and disease.Cellular mechanosensitivity to substrate stiffness decreases with increasing dissimilarity to cell stiffness.Altered phenotypic gene expression of 10T1/2 mesenchymal cells in nonuniformly stretched PEGDA hydrogels.Determination of cellular strains by combined atomic force microscopy and finite element modeling.Cell stiffness and receptors: evidence for cytoskeletal subnetworks.Chromatin and lamin A determine two different mechanical response regimes of the cell nucleus.Mechanical properties of interphase nuclei probed by cellular strain application.Time-dependent deformations in bone cells exposed to fluid flow in vitro: investigating the role of cellular deformation in fluid flow-induced signaling.Quantification of substrate and cellular strains in stretchable 3D cell cultures: an experimental and computational framework.Three-Dimensional Morphometry of Single Endothelial Cells with Substrate Stretching and Image-Based Finite Element Modeling
P2860
Q28268495-D1007055-9792-4608-8CE7-BC938BA60445Q30300280-ABA80A14-6B13-4EA3-9820-F24B9131556EQ30310722-550CB1FD-08B3-4DD6-B561-2772FA9A7A96Q30424570-7607FF50-B84B-4FCC-BA7A-EF77891F6BB0Q30502842-5BBC1210-CFE9-441D-AF47-3EA01A463842Q31091526-27BE3B33-685C-444D-9B13-CFC3FD085DB7Q34174757-E7F944A0-B196-4F35-BFC6-9950F80E310BQ34180513-7400D47C-E044-48EB-AD03-A79DFB22F37DQ34777149-F583407B-561B-45A9-A3E9-9816F752220DQ35512886-95E56DE3-77BA-4DE0-BDA9-0AF000E6AA51Q35559883-2522A0D6-EB48-4C10-B02D-C55B2102C8DBQ35591191-5ADC5313-D2B5-4C7E-B7B2-43FB5F9C33D8Q35606724-C37E6B8A-0166-42B1-8E98-BB06C9C95583Q35632054-52DD0994-6C08-40B3-927E-214DFB9C28A7Q35688264-6FC06B5E-B856-4228-AFE4-AAE9A51C917BQ36144958-80E5F015-CD58-45A5-82F6-A6230DD21961Q36144966-2B0A72E6-10DE-48F0-BF78-2D894F12C23BQ36708810-68D73147-4B27-4474-823C-30A1DAEE862FQ37016154-A53495D2-8D0D-4D99-8BF7-6085DBFA09C9Q37444772-51661AE0-EF9B-4E87-B23B-D37DBCB826EBQ38667011-48D7BE56-A55A-4C98-9114-0F3EE8052BEAQ39154689-8620421E-6736-4AEC-A93E-5F852084B752Q40211598-D9F93DFA-1472-4033-A661-B72A6DB138DBQ40512441-F364B1C5-DED3-4568-BD67-20261C212CF2Q41230094-AB1A40A9-AAB1-46D7-8110-28E21B95155BQ41847622-F2B93CCD-C537-43D2-9744-26CA714D4EAFQ41971639-28A222AF-30B9-4859-964A-E00724405153Q48569060-D73636FF-E818-4924-9753-C1C51E8DE627Q59248393-B0874B62-BB14-4055-B162-B3C496ADA121
P2860
Assessment of strain field in endothelial cells subjected to uniaxial deformation of their substrate.
description
1998 nî lūn-bûn
@nan
1998 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Assessment of strain field in ...... eformation of their substrate.
@ast
Assessment of strain field in ...... eformation of their substrate.
@en
type
label
Assessment of strain field in ...... eformation of their substrate.
@ast
Assessment of strain field in ...... eformation of their substrate.
@en
prefLabel
Assessment of strain field in ...... eformation of their substrate.
@ast
Assessment of strain field in ...... eformation of their substrate.
@en
P2093
P356
P1476
Assessment of strain field in ...... eformation of their substrate.
@en
P2093
P2888
P304
P356
10.1114/1.132
P577
1998-05-01T00:00:00Z
P6179
1040799537