Cell mechanics, structure, and function are regulated by the stiffness of the three-dimensional microenvironment.
about
Nanobiomechanics of living cells: a reviewStem cell differentiation increases membrane-actin adhesion regulating cell blebability, migration and mechanics.Evaluation of a post-processing approach for multiscale analysis of biphasic mechanics of chondrocytesElastic modulus affects the growth and differentiation of neural stem cells.Stiffness of the microenvironment upregulates ERBB2 expression in 3D cultures of MCF10A within the range of mammographic densityCandidate mediators of chondrocyte mechanotransduction via targeted and untargeted metabolomic measurements.Let's push things forward: disruptive technologies and the mechanics of tissue assembly.The Influence of Biomaterials on Cytokine Production in 3D Cultures.Simulation of extracellular matrix remodeling by fibroblast cells in soft three-dimensional bioresorbable scaffolds.Biophysical Tools to Study Cellular Mechanotransduction.Evaluation of a mPEG-polyester-based hydrogel as cell carrier for chondrocytes.Encapsulation of chondrocytes in high-stiffness agarose microenvironments for in vitro modeling of osteoarthritis mechanotransduction.Effects of Inflammation on Multiscale Biomechanical Properties of Cartilaginous Cells and Tissues.Concise Review: Fabrication, Customization, and Application of Cell Mimicking Microparticles in Stem Cell Science.Influence of spreading and contractility on cell detachment.Mechanical interactions between bacteria and hydrogelsThe Resting Potential and K Currents in Primary Human Articular Chondrocytes
P2860
Q26999457-398FF1CF-C179-424A-9442-A2094A2132AFQ30604753-3298DAB5-17FE-49F0-A28A-E3EEC79C9A7BQ34148823-8416295F-85FB-49D9-8B5C-90BB76227DBCQ36222848-1EEB2067-A5E7-4C6A-BB87-8D784AA70BB8Q37072951-FA170ACE-B7DF-4E97-A573-AEC331AFB832Q37669208-D8630DF9-9674-4AEC-95A5-46E18107148DQ38125912-3F06002E-3B2A-4D92-B973-C004D94FADF1Q38981264-E977909E-8649-40F7-A7FE-023DD7900147Q39787225-3E30504B-8234-4A70-98A6-9194B4BEA889Q41513525-4FB663BC-261A-403F-B925-FA98CA4B84C7Q43805337-DA20DE3E-B842-4157-9A5A-DD2E745ECBA3Q44060799-0CCCFCF9-8082-4192-BF0A-678B5AC66512Q47125223-04D84D2A-0C27-4BB0-962F-6B766856191AQ47188905-3B29BF62-0687-4ED6-88BF-B121A3D13A08Q53652272-267DF697-BF94-499B-985E-6EFBD1A53D12Q57331333-375DAECB-0878-4C15-9C3F-753087523CA2Q58764678-B8776607-FC55-4E22-9AB6-5F5415B203B2
P2860
Cell mechanics, structure, and function are regulated by the stiffness of the three-dimensional microenvironment.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Cell mechanics, structure, and ...... -dimensional microenvironment.
@en
Cell mechanics, structure, and ...... -dimensional microenvironment.
@nl
type
label
Cell mechanics, structure, and ...... -dimensional microenvironment.
@en
Cell mechanics, structure, and ...... -dimensional microenvironment.
@nl
prefLabel
Cell mechanics, structure, and ...... -dimensional microenvironment.
@en
Cell mechanics, structure, and ...... -dimensional microenvironment.
@nl
P2093
P2860
P50
P1433
P1476
Cell mechanics, structure, and ...... e-dimensional microenvironment
@en
P2093
P2860
P304
P356
10.1016/J.BPJ.2012.07.054
P407
P577
2012-09-01T00:00:00Z