Engineering gene expression and protein synthesis by modulation of nuclear shape.
about
Nanotopographical modulation of cell function through nuclear deformationReversine increases the plasticity of lineage-committed mammalian cellsDeconstructing the third dimension: how 3D culture microenvironments alter cellular cuesRole of actin dependent nuclear deformation in regulating early gene expressionControlling osteogenic stem cell differentiation via soft bioinspired hydrogelsA Review on Extracellular Matrix Mimicking Strategies for an Artificial Stem Cell NicheCollagen nanofibres are a biomimetic substrate for the serum-free osteogenic differentiation of human adipose stem cells.Power-law rheology of isolated nuclei with deformation mapping of nuclear substructuresMICROPATTERNING OF GOLD SUBSTRATES BASED ON POLY(PROPYLENE SULFIDE-BL-ETHYLENE GLYCOL), (PPS-PEG) BACKGROUND PASSIVATION AND THE MOLECULAR-ASSEMBLY PATTERNING BY LIFT-OFF (MAPL) TECHNIQUE.Deformation of stem cell nuclei by nanotopographical cues.Nuclear and cellular alignment of primary corneal epithelial cells on topography.Confinement and deformation of single cells and their nuclei inside size-adapted microtubesSelf-organizing human cardiac microchambers mediated by geometric confinementDistinct membrane mechanical properties of human mesenchymal stem cells determined using laser optical tweezersCombinatorial characterization of cell interactions with polymer surfaces.Emergence of a prestressed eukaryotic nucleus during cellular differentiation and developmentMicropattern width dependent sarcomere development in human ESC-derived cardiomyocytes.Nmp4/CIZ: road block at the intersection of PTH and load.Cytoskeleton-based forecasting of stem cell lineage fates.The Soft- and Hard-Heartedness of Cardiac Fibroblasts: Mechanotransduction Signaling Pathways in Fibrosis of the Heart.A three-dimensional random network model of the cytoskeleton and its role in mechanotransduction and nucleus deformation.Compliant 3D microenvironment improves β-cell cluster insulin expression through mechanosensing and β-catenin signaling.On the biomechanical function of scaffolds for engineering load-bearing soft tissues.Tissue stretch induces nuclear remodeling in connective tissue fibroblastsStem cell shape regulates a chondrogenic versus myogenic fate through Rac1 and N-cadherin.Increase of α-SMA(+) and CK (+) cells as an early sign of epithelial-mesenchymal transition during colorectal carcinogenesis.Remodeling of actin cytoskeleton in mouse periosteal cells under mechanical loading induces periosteal cell proliferation during bone formation.Cyclic stretch increases splicing noise rate in cultured human fibroblasts.Biomechanical approaches for studying integration of tissue structure and function in mammary epithelia.Modeling dynamic reciprocity: engineering three-dimensional culture models of breast architecture, function, and neoplastic transformationFrom single fiber to macro-level mechanics: A structural finite-element model for elastomeric fibrous biomaterials.Mechanical force affects expression of an in vitro metastasis-like phenotype in HCT-8 cells.Bone morphogenetic protein-2-induced signaling and osteogenesis is regulated by cell shape, RhoA/ROCK, and cytoskeletal tensionMechano-topographic modulation of stem cell nuclear shape on nanofibrous scaffoldsGuidance of mesenchymal stem cells on fibronectin structured hydrogel films.Micropatterning of Aptamer Beacons to Create Cytokine-Sensing SurfacesConcentration of fibrin and presence of plasminogen affect proliferation, fibrinolytic activity, and morphology of human fibroblasts and keratinocytes in 3D fibrin constructsDefined three-dimensional microenvironments boost induction of pluripotency.Topography design concept of a tissue engineering scaffold for controlling cell function and fate through actin cytoskeletal modulationThe effect of nanofiber-guided cell alignment on the preferential differentiation of neural stem cells.
P2860
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P2860
Engineering gene expression and protein synthesis by modulation of nuclear shape.
description
2002 nî lūn-bûn
@nan
2002 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@ast
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@en
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@nl
type
label
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@ast
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@en
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@nl
prefLabel
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@ast
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@en
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@nl
P2093
P2860
P356
P1476
Engineering gene expression and protein synthesis by modulation of nuclear shape.
@en
P2093
Carson H Thomas
Charles S Sfeir
Joel H Collier
Kevin E Healy
P2860
P304
P356
10.1073/PNAS.032668799
P407
P577
2002-02-12T00:00:00Z