Shared gene expression profiles in developing heart valves and osteoblast progenitor cells
about
Twist1 promotes heart valve cell proliferation and extracellular matrix gene expression during development in vivo and is expressed in human diseased aortic valvesTransforming growth factor Beta2 is required for valve remodeling during heart developmentWnt signaling in heart valve development and osteogenic gene inductionGenomic analysis distinguishes phases of early development of the mouse atrio-ventricular canal.Twist1 directly regulates genes that promote cell proliferation and migration in developing heart valvesTranscriptional regulation of heart valve development and disease.Genome-wide Twist1 occupancy in endocardial cushion cells, embryonic limb buds, and peripheral nerve sheath tumor cells.Twist1 transcriptional targets in the developing atrio-ventricular canal of the mouseDifferential expression of cartilage and bone-related proteins in pediatric and adult diseased aortic valvesTbx20 regulation of cardiac cell proliferation and lineage specialization during embryonic and fetal development in vivo.Protein isolation from the developing embryonic mouse heart valve region.Pod1/Tcf21 is regulated by retinoic acid signaling and inhibits differentiation of epicardium-derived cells into smooth muscle in the developing heart.The complex genetics of hypoplastic left heart syndrome.GENE EXPRESSION AND COLLAGEN FIBER MICROMECHANICAL INTERACTIONS OF THE SEMILUNAR HEART VALVE INTERSTITIAL CELL.Hierarchical approaches for systems modeling in cardiac development.The pathology and pathobiology of bicuspid aortic valve: State of the art and novel research perspectives.Notch pathway regulation of chondrocyte differentiation and proliferation during appendicular and axial skeleton development.Heart valve development: regulatory networks in development and diseaseTranscriptional regulation of heart valve progenitor cells.Cadherin-11 expression patterns in heart valves associate with key functions during embryonic cushion formation, valve maturation and calcification.Heart valve structure and function in development and diseaseInteraction between the skeletal and immune systems in cancer: mechanisms and clinical implications.Genetic and functional genomics approaches targeting the Notch pathway in cardiac development and congenital heart disease.How to make a heart valve: from embryonic development to bioengineering of living valve substitutes.Cells for tissue engineering of cardiac valves.BMP2 expression in the endocardial lineage is required for AV endocardial cushion maturation and remodeling.Heart Valve Biomechanics and Underlying MechanobiologyMitral valve endothelial cells with osteogenic differentiation potential.Morphology, Clinicopathologic Correlations, and Mechanisms in Heart Valve Health and Disease.Spatial transcriptional profile of the chick and mouse endocardial cushions identify novel regulators of endocardial EMT in vitro.Can valvular interstitial cells become true osteoblasts? A side-by-side comparison.Differential activation of valvulogenic, chondrogenic, and osteogenic pathways in mouse models of myxomatous and calcific aortic valve disease.Loss of Krox20 results in aortic valve regurgitation and impaired transcriptional activation of fibrillar collagen genes.ADAMTS5 Deficiency in Calcified Aortic Valves Is Associated With Elevated Pro-Osteogenic Activity in Valvular Interstitial Cells.
P2860
Q24298082-3707D6F4-0E36-4C7D-904B-DA2156756F7FQ28505676-728E1858-850F-4F51-B914-086EBEACDED1Q28586329-1D294895-8855-4037-95F0-DE8CFBE5657BQ30937438-E0AABC73-9804-487A-A11C-C19E90154D3DQ34126540-1148606D-FA27-4DE6-8CFC-A308A3483401Q34307567-EF85FEE2-0981-4B64-906F-3C9F6BF26718Q34308984-AF82A5D0-6149-4972-BAD4-858437539DDDQ34345242-0B3D6B13-12CC-4E83-AF71-61F2B9072567Q34560992-0425CB3C-861B-42D9-B0CD-F5639DD2D139Q35810305-127C548B-052F-4EBE-9047-860FFC0FBC46Q36063999-0F0D0EE2-6833-4EEC-A56D-04AF4CDC6914Q36148533-859532A1-6B65-46CE-BDB9-E8A68327D453Q36377531-74D5D6B5-461A-4197-B49A-22A6275EED84Q36399850-0D9AD542-41BE-47CD-B262-345FAFF7E5EEQ36763260-E8C66E53-DEC5-4231-A213-57332EF0ADB4Q37082556-94789AEF-8942-488B-BBB7-65ECFB9DA630Q37321215-DC4B807B-BB28-40FF-89CD-7AC50A3C62A2Q37421779-DCC721E7-8D28-40BF-AEA7-F823F81BA1F9Q37663819-FE1476B9-704D-4433-83D1-6D55CC40AF4BQ37673204-AC0820CC-A963-41FB-860D-DF7BD688E34CQ37784511-563CAA98-F6A0-47A8-BC54-336BA0A58356Q37829690-740D47C8-E69B-4DBF-8291-B90DA8C4A2DBQ38150808-C38CB998-AFDB-4971-B0C1-FE43F46A5BA4Q38264871-B638A839-B9F5-4209-9C57-03ADFCB076A5Q38364917-714C84B9-8C4A-41E4-AEF0-B3346CC7EFD2Q38633340-4E17D8E5-A839-4873-A727-33C07797AB10Q38805137-BF8D6607-241C-4405-A7FD-734EDB37A073Q38978261-9307AF07-99F0-4E0D-BC14-569467D984E8Q40630689-B7A62007-54C8-48E6-B85E-51743FE33CC6Q40885900-52B2C4B6-9338-4EEB-BBAA-19B63BD165ECQ41486764-7316ECCB-1093-44EE-A683-E2747714693FQ42128207-6AC121AE-B3EC-4A72-BB01-487BE3E63A1FQ50626920-8731F5C0-E00D-4640-BF36-2D8E5B61A63CQ50978651-30814E14-2EB9-4EF6-8C39-E21672D2CDD3
P2860
Shared gene expression profiles in developing heart valves and osteoblast progenitor cells
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Shared gene expression profile ...... nd osteoblast progenitor cells
@en
type
label
Shared gene expression profile ...... nd osteoblast progenitor cells
@en
prefLabel
Shared gene expression profile ...... nd osteoblast progenitor cells
@en
P2093
P2860
P1476
Shared gene expression profile ...... nd osteoblast progenitor cells
@en
P2093
Bhuvaneswari Sakthivel
Jonathan Cheek
Santanu Chakraborty
P2860
P356
10.1152/PHYSIOLGENOMICS.90212.2008
P577
2008-07-08T00:00:00Z