KLF2-induced actin shear fibers control both alignment to flow and JNK signaling in vascular endothelium.
about
MicroRNA-143/-145 in Cardiovascular DiseasesMechanosensitive microRNAs-role in endothelial responses to shear stress and redox stateMechanisms of Amplified Arteriogenesis in Collateral Artery Segments Exposed to Reversed Flow Direction.JNK2 promotes endothelial cell alignment under flowSalt overload damages the glycocalyx sodium barrier of vascular endothelium.Ubiquitin-dependent degradation of HDAC4, a new regulator of random cell motility.The role of blood flow in determining the sites of atherosclerotic plaques."Go with the flow": how Krüppel-like factor 2 regulates the vasoprotective effects of shear stress.Fluid flows and forces in development: functions, features and biophysical principles.Expression of Nitric Oxide-Transporting Aquaporin-1 Is Controlled by KLF2 and Marks Non-Activated Endothelium In Vivo.Aquaporin-1 facilitates pressure-driven water flow across the aortic endothelium.Characterization of the differential response of endothelial cells exposed to normal and elevated laminar shear stressApelin/APJ signaling is a critical regulator of statin effects in vascular endothelial cells--brief report.The role of endothelial mechanosensitive genes in atherosclerosis and omics approaches.Combined effects of substrate topography and stiffness on endothelial cytokine and chemokine secretion.Linking cell structure to gene regulation: signaling events and expression controls on the model genes PAI-1 and CTGF.Flow shear stress and atherosclerosis: a matter of site specificity.Mechanotransduction in embryonic vascular development.Systems biology of the functional and dysfunctional endothelium.Biological and Physical Factors Involved in the Maturation of Arteriovenous Fistula for Hemodialysis.Role of biomechanical forces in the natural history of coronary atherosclerosis.Endoglin controls blood vessel diameter through endothelial cell shape changes in response to haemodynamic cues.Flow-induced endothelial cell alignment requires the RhoGEF Trio as a scaffold protein to polarize active Rac1 distribution.Omics-based approaches to understand mechanosensitive endothelial biology and atherosclerosis.Blood Brothers: Hemodynamics and Cell-Matrix Interactions in Endothelial Function.Towards the Identification of Hemodynamic Parameters Involved in Arteriovenous Fistula Maturation and Failure: A Review.Design of a cone-and-plate device for controlled realistic shear stress stimulation on endothelial cell monolayers.The role of shear-induced transforming growth factor-β signaling in the endothelium.Krüppel-like factors and vascular wall homeostasis.Organotypic vasculature: From descriptive heterogeneity to functional pathophysiology.Chronic hypertension increases aortic endothelial hydraulic conductivity by upregulating endothelial aquaporin-1 expression.Endothelial Cell Metabolism.Krüppel-Like Factors in Vascular Inflammation: Mechanistic Insights and Therapeutic Potential.The expression dynamics of mechanosensitive genes in extra-embryonic vasculature after heart starts to beat in chick embryo.A whole-genome transcriptome analysis of articular chondrocytes in secondary osteoarthritis of the hip.
P2860
Q26801892-6EC1E030-3856-4D66-8FE3-C3123D38DA0AQ26851899-913B2886-2F8B-46B1-864C-210173BEFCB5Q30278752-99C0ACE9-F9BD-4C3C-AC99-2907DF81C311Q30430748-57DF077A-5683-4688-B687-C5B9EDCC20EDQ30474057-ECFDD2C1-23F6-431C-AD6F-1BAF06ADAEF7Q30497896-86858DBA-8569-47AD-B219-B28589E9B7EEQ34988733-FDB97FEF-B232-4777-B60F-FD794712CE58Q35130262-DF91C5DB-93AF-4CEA-8D86-AD9A5C9DFE9BQ35804651-DFF17DB7-3934-4228-A8FD-D5A728804FCEQ35881970-DB0A756B-A6A7-4C72-A3F1-567DE0AE6D0EQ36000025-3E8C3200-71FD-4E4B-8B58-1A1899B6153BQ36141430-7EF72F60-C1FF-4EC5-8334-1E27E12B0425Q36389929-900C5CD2-5854-49A9-867C-477008533FDFQ36563042-0E4A829A-4337-49B0-B750-9E2A8269036AQ37077651-7EFB9458-3094-4A51-B954-155DA76C2EF1Q37723809-777BFB8B-F783-4F0C-B925-002119849F5CQ37807049-A71EAE41-938F-403B-BD81-936AA7492C8AQ38022553-BA953F01-13C6-40C5-AFCF-9A20C25F8CB9Q38104710-8986A922-5064-4091-A522-E2E1AF43CAE5Q38650557-991E07CF-E2C8-4697-A0A0-0EE342676699Q38715461-F081518D-FBE8-4BEC-BE19-D31DB59DC00DQ38771567-5423A5D8-0EFC-44AD-AB88-0568FE423E85Q38780206-B0B96493-D10D-44E9-97D5-DC306875766DQ38876119-7C505B89-3922-4F79-83EC-153A1B7F340AQ38926872-F4C5A53F-A052-43F3-A0A9-38809BF1AEFCQ39458818-199168FF-20D9-4113-A0B9-D33C170857FCQ41639646-013347E6-3D06-4063-93A3-03BCFE6DB9D1Q41996789-76AB19C7-B4C9-4E6E-BAE1-E37D683295B2Q47676828-65213E0D-6B95-45F1-BC94-5E8808AD7D05Q47836465-9BC1B275-78DB-4079-BAEF-9F5C5CD6A7B3Q47894246-4696E7E5-4E1B-4FB0-8D34-EECF717B1F04Q49787990-BD757049-8310-4FC7-87AD-8A3E8F0B7C6DQ49828837-30999D74-2A74-4C91-AF6F-8CC2EDCFD557Q50532657-5351CE18-26C6-4D2F-8B9B-A1FF08DBAF99Q55449037-18D042BE-FA66-49B5-8BD4-3011F1CADDDD
P2860
KLF2-induced actin shear fibers control both alignment to flow and JNK signaling in vascular endothelium.
description
2009 nî lūn-bûn
@nan
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
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
KLF2-induced actin shear fiber ...... aling in vascular endothelium.
@en
KLF2-induced actin shear fiber ...... aling in vascular endothelium.
@nl
type
label
KLF2-induced actin shear fiber ...... aling in vascular endothelium.
@en
KLF2-induced actin shear fiber ...... aling in vascular endothelium.
@nl
prefLabel
KLF2-induced actin shear fiber ...... aling in vascular endothelium.
@en
KLF2-induced actin shear fiber ...... aling in vascular endothelium.
@nl
P2093
P1433
P1476
KLF2-induced actin shear fiber ...... aling in vascular endothelium.
@en
P2093
Anton J G Horrevoets
Geerten P van Nieuw Amerongen
Joost O Fledderus
Josefien M C Baggen
Oscar L Volger
Ruud D Fontijn
Thomas A Leyen
P304
P356
10.1182/BLOOD-2009-06-228726
P407
P577
2009-12-23T00:00:00Z