Probing embryonic tissue mechanics with laser hole drilling.
about
Emergent material properties of developing epithelial tissues.DRhoGEF2 regulates cellular tension and cell pulsations in the Amnioserosa during Drosophila dorsal closureContractile and mechanical properties of epithelia with perturbed actomyosin dynamicsThe interplay between cell signalling and mechanics in developmental processesCell ingression and apical shape oscillations during dorsal closure in DrosophilaMechanical state, material properties and continuous description of an epithelial tissue.Release of cellular tension signals self-restorative ventral lamellipodia to heal barrier micro-wounds.Coordinated waves of actomyosin flow and apical cell constriction immediately after wounding.Computational and experimental study of the mechanics of embryonic wound healing.Cellular mechanics of germ band retraction in DrosophilaIon channels contribute to the regulation of cell sheet forces during Drosophila dorsal closureComplete canthi removal reveals that forces from the amnioserosa alone are sufficient to drive dorsal closure in Drosophila.Quantifying dorsal closure in three dimensionsGeometry can provide long-range mechanical guidance for embryogenesis.Holographic UV laser microsurgery.Drosophila morphogenesis: tissue force laws and the modeling of dorsal closure.Modeling cell elongation during germ band retraction: cell autonomy versus applied anisotropic stressMechanical control of the sense of touch by β-spectrinSurprisingly simple mechanical behavior of a complex embryonic tissue.No strings attached: new insights into epithelial morphogenesisLarge-scale mechanical properties of Xenopus embryonic epithelium.Apical oscillations in amnioserosa cells: basolateral coupling and mechanical autonomyCellFIT: a cellular force-inference toolkit using curvilinear cell boundaries.Plithotaxis and emergent dynamics in collective cellular migrationEnabling user-guided segmentation and tracking of surface-labeled cells in time-lapse image sets of living tissuesChallenges in developing a reseeded, tissue-engineered aortic valve prosthesis.Drosophila non-muscle myosin II motor activity determines the rate of tissue foldingModelling apical columnar epithelium mechanics from circumferential contractile fibres.Pathway to a phenocopy: Heat stress effects in early embryogenesisA toolbox to explore the mechanics of living embryonic tissues.Combining laser microsurgery and finite element modeling to assess cell-level epithelial mechanics.Apical constriction: a cell shape change that can drive morphogenesis.Integrative approaches to morphogenesis: lessons from dorsal closure.Quantitative microscopy and imaging tools for the mechanical analysis of morphogenesis.Reverse engineering the mechanical and molecular pathways in stem cell morphogenesis.Vertex models of epithelial morphogenesisFrom actomyosin oscillations to tissue-level deformations.Xenopus as a model for studies in mechanical stress and cell division.Vertex models: from cell mechanics to tissue morphogenesis.Evolution of epithelial morphogenesis: phenotypic integration across multiple levels of biological organization.
P2860
Q27305138-5508B2D8-EDA4-4AFA-B592-649C96437C14Q27322832-9B68BA01-9E8A-4BF4-8551-472288BA5E95Q27335608-15B58407-6CB8-44A4-A22A-21EBC6030F80Q28298696-3449558E-C4F6-4A1A-9D3D-ACF68D48DA42Q28731467-9741CD55-B184-4E92-8A23-4092F1B76911Q30524362-9D344F89-7D00-4C8C-9459-FDB49B741536Q30539318-793690B7-4ABE-4674-A196-6F2122919819Q30541694-BEE4CF9A-B984-4229-9D25-36DB63222877Q30557748-B920717D-7FD4-4A22-BB93-B19F41F7D5C9Q30559023-7AE026A8-9B61-4106-9312-A08E8C032639Q30561790-721193C3-57FC-416C-9D45-59CF30ACE39CQ30597671-6F2142F4-6267-435D-B6E3-CBD126D330B5Q30831982-85CE9235-B8B3-4746-A73A-17E506609B66Q30844764-16FB2407-92B6-417A-90DC-B0DB6F639908Q31033039-D0F49D2C-093F-45CE-AACF-F064926FAC67Q33591343-FF819A85-1D01-42AC-83A2-4FF2B54AAE49Q33607426-EBA0C07B-CBBD-4878-83E4-FEB4EC392E1CQ33715281-EEC4BEC7-C818-4FEC-AD5A-01CCCCDD1F06Q33784340-14A3A336-80DD-4722-BF4C-D2FBDC2CC9CBQ34519263-77C70DCB-FF61-467F-933B-7F21D9027E7BQ34652586-6386186E-62F5-4502-AF29-42DE9D225FD6Q34792282-3E4A311C-3CCA-48C6-B25D-07F91299470FQ35185971-5EE4837F-C4D2-47FB-B03E-9DAAEE6BE000Q35456805-97FFF12C-1303-4047-9250-7580F3137424Q35903291-A4B83549-1AAD-4320-9BAD-7F8EB4454DEEQ35991508-5D7CA7A8-9CBC-4BDC-B8E6-DA6D660460EFQ36236204-E914A479-4256-4A24-8B52-CF128C06161FQ36340660-8A3A7BA6-EF92-4334-828E-8B9BA28ECFE6Q36586007-97DD9464-5E02-43AD-8CE5-155B55495E0EQ36995381-6C974673-D0B2-4075-B422-1AC77A7F354FQ37475590-82C1DCA5-1722-44F1-BC94-004610818C0BQ37596612-DFC8D24B-519E-4889-8D43-A410A89AE175Q37821423-BD1FE38C-0DC2-4DCE-9DD1-D658C1DCFE01Q37926719-208FCFEB-AE87-42B6-89B2-054C96A13E71Q38074123-C3AF7E7A-D0E9-4B12-8E61-2E1B29A5D4E0Q38217518-3B7531D4-E83E-4BE0-8F95-E677183A1A70Q38618372-644F9972-8FFB-43E0-9CC7-34DEE84C9734Q39016573-DD370A74-9693-420E-9DC7-5241C906E1F6Q39203495-3DA2AE3D-8267-4782-81C2-7F6F9FD6CDE3Q40412820-6B960CE5-EBC7-4B29-BD41-1D90E958428F
P2860
Probing embryonic tissue mechanics with laser hole drilling.
description
2009 nî lūn-bûn
@nan
2009 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
name
Probing embryonic tissue mechanics with laser hole drilling.
@ast
Probing embryonic tissue mechanics with laser hole drilling.
@en
type
label
Probing embryonic tissue mechanics with laser hole drilling.
@ast
Probing embryonic tissue mechanics with laser hole drilling.
@en
prefLabel
Probing embryonic tissue mechanics with laser hole drilling.
@ast
Probing embryonic tissue mechanics with laser hole drilling.
@en
P2093
P356
P1433
P1476
Probing embryonic tissue mechanics with laser hole drilling.
@en
P2093
Holley E Lynch
M Shane Hutson
Peter C Scully
Xiaoyan Ma
P304
P356
10.1088/1478-3975/6/3/036004
P577
2009-05-01T00:00:00Z