Spatial coordination between cell and nuclear shape within micropatterned endothelial cells.
about
From tissue mechanics to transcription factors.Three-dimensional cage-like microscaffolds for cell invasion studiesNuclear motility in glioma cells reveals a cell-line dependent role of various cytoskeletal componentsRole of actin dependent nuclear deformation in regulating early gene expressionPerinuclear Arp2/3-driven actin polymerization enables nuclear deformation to facilitate cell migration through complex environments.Volume regulation and shape bifurcation in the cell nucleus.Role of actin filaments in correlating nuclear shape and cell spreadingNew approaches for understanding the nuclear force balance in living, adherent cellsQuantitating the cell: turning images into numbers with ImageJHigh-Content Analysis Provides Mechanistic Insights into the Testicular Toxicity of Bisphenol A and Selected Analogues in Mouse Spermatogonial CellsApple derived cellulose scaffolds for 3D mammalian cell cultureCardiac Mechano-Gated Ion Channels and Arrhythmias.A high throughput approach for analysis of cell nuclear deformability at single cell levelDefined topologically-complex protein matrices to manipulate cell shape via three-dimensional fiber-like patterns.Super-resolution microscopy reveals LINC complex recruitment at nuclear indentation sitesAstrocytes increase ATP exocytosis mediated calcium signaling in response to microgroove structures.Opposite rheological properties of neuronal microcompartments predict axonal vulnerability in brain injury.Oriented collagen fibers direct tumor cell intravasation.Probing cytoskeletal pre-stress and nuclear mechanics in endothelial cells with spatiotemporally controlled (de-)adhesion kinetics on micropatterned substrates.Imaging chromatin nanostructure with binding-activated localization microscopy based on DNA structure fluctuations.Compliant 3D microenvironment improves β-cell cluster insulin expression through mechanosensing and β-catenin signaling.Rho kinase proteins display aberrant upregulation in vascular tumors and contribute to vascular tumor growth.Cell behaviour on a polyaniline nanoprotrusion structure surfaceThree-dimensional cell body shape dictates the onset of traction force generation and growth of focal adhesionsCellular mechanosensing: getting to the nucleus of it all.Imaging flow cytometry for morphologic and phenotypic characterization of rare circulating endothelial cells.Syndecan 4 is required for endothelial alignment in flow and atheroprotective signaling.Cell adhesion and shape regulate TGF-beta1-induced epithelial-myofibroblast transition via MRTF-A signaling.A light-sheet microscope compatible with mobile devices for label-free intracellular imaging and biosensing.Nanotopographical Surfaces for Stem Cell Fate Control: Engineering Mechanobiology from the BottomThe nucleus is an intracellular propagator of tensile forces in NIH 3T3 fibroblasts.Micropatterned macrophage analysis reveals global cytoskeleton constraints induced by Bacillus anthracis edema toxin.Syndecan-1-Induced ECM Fiber Alignment Requires Integrin αvβ3 and Syndecan-1 Ectodomain and Heparan Sulfate ChainsCell shape dependent regulation of nuclear morphology.Small Heat Shock Protein αB-Crystallin Controls Shape and Adhesion of Glioma and Myoblast Cells in the Absence of StressVertical uniformity of cells and nuclei in epithelial monolayers.Integration of 3D Printed and Micropatterned Polycaprolactone Scaffolds for Guidance of Oriented Collagenous Tissue Formation In Vivo.Nesprin-2G, a Component of the Nuclear LINC Complex, Is Subject to Myosin-Dependent Tension.Preparation of hydroxy-PAAm hydrogels for decoupling the effects of mechanotransduction cues.Cell geometric constraints induce modular gene-expression patterns via redistribution of HDAC3 regulated by actomyosin contractility.
P2860
Q26866255-312FA3C5-5B84-43C7-B312-FC73F532097CQ27308981-2DF07BD6-E14A-41A2-ACA8-363FF8FE6609Q27312089-75D962D0-BBB4-49DF-80B5-DF2E99649CE9Q27323169-CD78BBCD-86E2-4EE2-81A1-4ED07B0B2541Q27324025-8A188E49-748F-4E3A-AB4D-662010EC530CQ27340415-8FA83BC0-5633-412B-8772-E10C532A2FB8Q27346555-CCD313DB-7282-48F9-981E-52E88A857970Q28082302-F2466C15-5314-4FD5-BA9F-D43F1D52EB97Q28364353-52B0D8D6-229E-42DC-B964-88C4A45BAD3BQ28397772-314652A4-0F83-4829-95B4-0A25E7EE2F18Q28538966-A787D388-7062-449E-A4B1-011DD2B0EDB3Q28601309-AC381672-92B5-490F-9580-597CCDCE7F36Q30369345-855F2320-1D9D-43CA-AC60-E25B7F131830Q30579631-17506B03-3446-4F33-A192-865169DF501DQ30605893-7B77D728-E65B-4186-95A8-038DD0506F6AQ30616202-F7D16041-0DFC-4F99-A9D0-1E6DEE40E566Q30633008-E2341A0F-15B8-404D-A34B-039A282410AFQ30819716-2A77C237-4A61-4C93-AC13-3EFBAFFF05A4Q30838562-79F357D6-6ECD-44CD-895A-1D16EA48BF91Q33635927-67439CCD-C5D7-4A59-A175-7648658ECA17Q33860312-CA0579CA-5052-400B-9F5A-363B973AB5C7Q33909559-2AA1F8D2-B1E1-4EA3-8E7A-4CC20F6754DAQ34440493-B0B7ADEA-A255-4468-8EB3-64F604F6AFC7Q34583473-2270DEBE-86F0-4DBD-A293-D265867776CEQ34614178-C838787E-50C2-4561-87F0-C38030CFF739Q34647525-A86CB638-70C4-40BC-B39C-9274D332FCA7Q34661177-7530F60F-FCD6-4660-9CCD-BEBED21C3C59Q35067989-9D143B50-34FD-4E04-AF15-A2067FD78DF3Q35200510-FF1CF72B-34E8-49E3-A2E5-CDA9D045C764Q35379721-C209485B-DAFF-432A-B033-C6D9C7584285Q35687492-AE77DE2E-C046-42C4-9114-99EC5FE811E5Q35833792-ED4CF4BF-4EAC-495D-A1DF-370C6D7FEC86Q35933767-E422C947-4A9B-4E9F-ACEA-140E596CBFEFQ36224478-285F0984-A78F-43C6-8138-ED4DB0591DFAQ36224961-F9CC22BF-6375-4107-AD96-35C2C77FB645Q36500563-C4E89F31-65A5-488C-A044-93DDFB11151CQ36723281-C1E70347-214F-4E0C-8470-EBD391D85B61Q36724244-D57A1CB2-8C97-41CB-A48E-770A88400166Q36787965-2EB06ED0-CD09-43F6-8943-F49B7BF90975Q37010867-B4C43CD4-CC31-4384-A0AB-BA633B87B13C
P2860
Spatial coordination between cell and nuclear shape within micropatterned endothelial cells.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Spatial coordination between c ...... ropatterned endothelial cells.
@en
Spatial coordination between c ...... ropatterned endothelial cells.
@nl
type
label
Spatial coordination between c ...... ropatterned endothelial cells.
@en
Spatial coordination between c ...... ropatterned endothelial cells.
@nl
prefLabel
Spatial coordination between c ...... ropatterned endothelial cells.
@en
Spatial coordination between c ...... ropatterned endothelial cells.
@nl
P2093
P356
P1476
Spatial coordination between c ...... ropatterned endothelial cells.
@en
P2093
Marie Versaevel
Sylvain Gabriele
Thomas Grevesse
P2888
P356
10.1038/NCOMMS1668
P407
P577
2012-02-14T00:00:00Z