about
Mathematical models of cancer metabolismCollective cell migration: a mechanistic perspectiveNeural differentiation from pluripotent stem cells: The role of natural and synthetic extracellular matrixA photoactivatable nanopatterned substrate for analyzing collective cell migration with precisely tuned cell-extracellular matrix ligand interactionsEntry effects of droplet in a micro confinement: Implications for deformation-based circulating tumor cell microfiltrationControl of tissue morphology by Fasciclin III-mediated intercellular adhesion.Coupling between apical tension and basal adhesion allow epithelia to collectively sense and respond to substrate topography over long distances.Regulation of epithelial cell organization by tuning cell-substrate adhesionIn vivo quantification of spatially varying mechanical properties in developing tissues.Three-dimensional aggregates of mesenchymal stem cells: cellular mechanisms, biological properties, and applications.Compaction, fusion, and functional activation of three-dimensional human mesenchymal stem cell aggregate.Strain-rate Dependence of Elastic Modulus Reveals Silver Nanoparticle Induced Cytotoxicity.Differential interaction forces govern bacterial sorting in early biofilms.Wetting and phase separation in soft adhesion.Mechanobiological induction of long-range contractility by diffusing biomolecules and size scaling in cell assemblies.Emergent structures and dynamics of cell colonies by contact inhibition of locomotion.Colloquium: Mechanical formalisms for tissue dynamics.Multicellular tumor invasion and plasticity in biomimetic materials.A morphospace for synthetic organs and organoids: the possible and the actual.A spatial model predicts that dispersal and cell turnover limit intratumour heterogeneity.Establishment of a human 3D lung cancer model based on a biological tissue matrix combined with a Boolean in silico model.Photoactivatable Substrates: A Material-Based Approach for Dissecting Cell Migration.Mechanics of fire ant aggregations.Crystallizing hard-sphere glasses by doping with active particles.Heart-specific stiffening in early embryos parallels matrix and myosin expression to optimize beating.Theory of rapid force spectroscopy.The Physical Basis of Coordinated Tissue Spreading in Zebrafish Gastrulation.Hydrodynamics of stratified epithelium: Steady state and linearized dynamics.Magnetically shaped cell aggregates: from granular to contractile materials.An interdisciplinary view on dynamic models for plant genetics and morphogenesis: scope, examples and emerging research avenues.Solid capillarity: when and how does surface tension deform soft solids?How gluttonous cell aggregates clear substrates coated with microparticles.Dynamic interfacial behavior of viscoelastic aqueous hyaluronic acid: effects of molecular weight, concentration and interfacial velocity.Organ size control via hydraulically gated oscillations.Driving dynamic colloidal assembly using eccentric self-propelled colloids.Reentrant wetting transition in the spreading of cellular aggregates.Nonequilibrium mode-coupling theory for dense active systems of self-propelled particles.Efficient scalable production of therapeutic microvesicles derived from human mesenchymal stem cells.Tissue growth pressure drives early blood flow in the chicken yolk sac.Autonomous reciprocating migration of an active material.
P2860
Q26772067-94B6B89E-5039-43D2-A2CC-A02C126BFDCDQ26994735-D7C1AB77-D29A-4BA0-890A-659D40D84C80Q27007542-5B7D70F4-8936-4028-8761-2118208D49B1Q27315606-36D17241-B6BA-4B26-A68F-672033C81B6DQ30387411-44BADC49-AD5E-452D-9C9A-3BBE54199A50Q30570993-38D37915-706B-4A5D-8466-882B6842A45AQ30684706-70DC6AFF-315D-4E06-8302-BDE379BFC72BQ30848122-37C75FDE-1195-4A79-A465-DD936F266F97Q33925026-2BCDCC81-05F8-4206-850A-78B9F73DB46FQ34290984-E9AC6914-E506-4F4D-94BD-28820D80FE27Q35589738-5421E403-933B-43A7-B0C3-D8CB7B8CAE86Q35911625-E4654B9A-2FD2-4389-8350-004FEEAE4ED6Q36222650-2011D5E3-0D0D-4F5B-8E1D-56FE239617BEQ36332019-E54D6A80-E7C2-4B7C-88C2-253D4356C97CQ36990835-07C02926-EE2D-4871-8BC5-D0CD282F5B0AQ37534373-421DA286-A998-464D-A0F0-AF4221D48D98Q38468576-D092CFCA-0B30-413D-9126-10D9BBB7F7DAQ38680872-4791F2FE-2573-4540-BB50-55D5AC480220Q38794948-1B8A818A-BA06-4897-AE81-10045FC70931Q38843089-0F51C0B6-6C30-49C7-AF8C-5CEAE9F21862Q39037578-903AB9E6-7591-4352-9726-4C5419019CBDQ39044407-75E64978-0569-4CB3-8691-051D35471CE4Q40392932-5C1789AE-7F23-4EF2-B2EA-C0F7DD0CE759Q41602291-53EB60FE-CA2F-4C4D-B7E4-EE4349FB048FQ41933656-05B02F33-1F9D-405D-B975-56CE673233B9Q42099663-10FC6C71-B2FF-4E44-8296-CAEB29E22034Q42103546-AB998ACB-8990-4FCF-AED0-1FA6E7B46553Q42494644-A7996376-3C52-4A0E-B23B-A9C6E4642EC0Q42804336-EDB2A7D4-90D3-4E66-918C-C27584DDD8A8Q43101138-54373B52-9ABA-49A7-BB7E-C6FF291EBEAEQ44862751-12DDE859-FF01-4E01-B510-8276DE21F472Q47109856-101CA28F-A15B-414E-B361-6A2A1A4F4189Q47174070-BC0C74D2-A52F-431C-88CC-9E5E77F36B33Q47175335-06C376DB-CE2F-4B3A-867E-8E497E86122AQ47342436-B1F4625C-CC4D-4E5B-BBED-E4708D48213EQ47578971-C2625402-910C-49D7-9295-A2E1CAFCEC87Q47652013-FAE66E75-943F-49EB-AFF0-473AE4093458Q47722619-46750323-8E90-4BF9-BBD5-707DE2770AFAQ47858823-2797820A-9BA7-4892-9FA2-17D3972692D6Q47861028-CCBE488E-8C57-417B-A831-7CCB0B1DF1EB
P2860
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
Soft matter models of developing tissues and tumors.
@en
type
label
Soft matter models of developing tissues and tumors.
@en
prefLabel
Soft matter models of developing tissues and tumors.
@en
P2093
P2860
P356
P1433
P1476
Soft matter models of developing tissues and tumors.
@en
P2093
David Gonzalez-Rodriguez
Karine Guevorkian
Stéphane Douezan
P2860
P304
P356
10.1126/SCIENCE.1226418
P407
P577
2012-11-01T00:00:00Z