Signaling and transcriptional regulation in osteoblast commitment and differentiation
about
TGF-β and BMP signaling in osteoblast differentiation and bone formationThe role of microRNAs in cell fate determination of mesenchymal stem cells: balancing adipogenesis and osteogenesisBone regeneration and stem cellsComparative proteomics analysis of teleost intermuscular bones and ribs provides insight into their developmentPlasma membrane factor XIIIA transglutaminase activity regulates osteoblast matrix secretion and deposition by affecting microtubule dynamics.Non-canonical Wnt signaling and N-cadherin related beta-catenin signaling play a role in mechanically induced osteogenic cell fate.Manufacturing Differences Affect Human Bone Marrow Stromal Cell Characteristics and Function: Comparison of Production Methods and Products from Multiple CentersMicrocalcifications in breast cancer: an active phenomenon mediated by epithelial cells with mesenchymal characteristics.Downregulation of PPARγ by miR-548d-5p suppresses the adipogenic differentiation of human bone marrow mesenchymal stem cells and enhances their osteogenic potentialMammary gland serotonin regulates parathyroid hormone-related protein and other bone-related signalsLoss of osteoblast Runx3 produces severe congenital osteopeniaThe Effect of Quercetin on the Osteogenesic Differentiation and Angiogenic Factor Expression of Bone Marrow-Derived Mesenchymal Stem CellsRegulative Effect of Mir-205 on Osteogenic Differentiation of Bone Mesenchymal Stem Cells (BMSCs): Possible Role of SATB2/Runx2 and ERK/MAPK PathwayEnhancing osteoconduction of PLLA-based nanocomposite scaffolds for bone regeneration using different biomimetic signals to MSCs.Orphan nuclear receptor chicken ovalbumin upstream promoter-transcription factor II (COUP-TFII) protein negatively regulates bone morphogenetic protein 2-induced osteoblast differentiation through suppressing runt-related gene 2 (Runx2) activity.Upregulation of miR-22 promotes osteogenic differentiation and inhibits adipogenic differentiation of human adipose tissue-derived mesenchymal stem cells by repressing HDAC6 protein expression.Calycosin-7-O-β-d-glucopyranoside stimulates osteoblast differentiation through regulating the BMP/WNT signaling pathwaysPARP Inhibitor PJ34 Suppresses Osteogenic Differentiation in Mouse Mesenchymal Stem Cells by Modulating BMP-2 Signaling PathwayMutation of Prkar1a causes osteoblast neoplasia driven by dysregulation of protein kinase A.Congenic mice provide in vivo evidence for a genetic locus that modulates intrinsic transforming growth factor β1-mediated signaling and bone acquisition.Cordycepin prevents oxidative stress-induced inhibition of osteogenesis.Insulin-like growth factor-binding protein-5 inhibits osteoblast differentiation and skeletal growth by blocking insulin-like growth factor actions.Human iPSC-derived osteoblasts and osteoclasts together promote bone regeneration in 3D biomaterials.Genetic and molecular control of osterix in skeletal formationThe role of Dickkopf-1 in bone development, homeostasis, and diseaseBiomolecular basis of the role of diabetes mellitus in osteoporosis and bone fracturesThe transcription factor protein Sox11 enhances early osteoblast differentiation by facilitating proliferation and the survival of mesenchymal and osteoblast progenitors.TGF-β induces Wnt10b in osteoclasts from female mice to enhance coupling to osteoblasts.Expression, signaling, and function of P2X7 receptors in bone.FAD104, a regulatory factor of adipogenesis, acts as a novel regulator of calvarial bone formation.Ginseng saponins and the treatment of osteoporosis: mini literature reviewWhen nutrition interacts with osteoblast function: molecular mechanisms of polyphenols.Naringin promotes osteogenic differentiation of bone marrow stromal cells by up-regulating Foxc2 expression via the IHH signaling pathwayGlucocorticoid receptor and Histone deacetylase 6 mediate the differential effect of dexamethasone during osteogenesis of mesenchymal stromal cells (MSCs).Interleukin-32 Gamma Stimulates Bone Formation by Increasing miR-29a in Osteoblastic Cells and Prevents the Development of Osteoporosis.Low-frequency vibration treatment of bone marrow stromal cells induces bone repair in vivo.A novel osteoporosis model with ascorbic acid deficiency in Akr1A1 gene knockout mice.New developments in the area of factor XIII.Melatonin effects on bone: potential use for the prevention and treatment for osteopenia, osteoporosis, and periodontal disease and for use in bone-grafting procedures.An update of human mesenchymal stem cell biology and their clinical uses.
P2860
Q26995720-4E22726F-47E5-48EE-9132-199BF8767D44Q27691375-64ECE5C2-D46C-47CE-BC0C-73EB9392018FQ28659195-953CD7EE-1487-4154-8B8B-A317C3B64B45Q28817047-EBDD8F6D-011F-4336-B985-101527394DBCQ30997344-797D6A10-F7A6-4883-A1C3-FBF35C10FE2FQ33436209-ED649DFC-8265-4FDD-A45E-AB7E0E78285CQ33608418-B12A1338-9FEC-4AB2-800B-890BB7102915Q33612598-337B4984-C5AA-4513-8399-4D9EEC79D305Q33797094-B140A04F-2955-420B-A521-3A3C389273B5Q34253136-2C9DB685-DED4-4B1E-A134-B35EDF0EE856Q35165153-4E01393E-A60F-4B2E-A0C7-24EFA40173E6Q35656448-78A697BB-E485-4325-8907-50BCCEBBFCE6Q35723405-A3614D06-F9CD-4252-A342-7AEF7FC112F1Q35795933-29D6835C-7A83-45CD-9F70-372B050E5E20Q36003602-A84B65EE-55B6-462D-95C4-FA90426C85E1Q36181298-0B781D8D-F06B-4F2E-9A7C-E525BAD59C18Q36238658-3FEB9B54-BB49-4EF3-8BA3-0F7A37A3CC50Q36247467-7D30AB15-0BC4-403F-9ACF-38442F0B0EE2Q36447416-740DAAF6-E61C-4BC8-A106-4E5C283B2D2AQ36510130-165E9F23-FCBC-4935-A6D6-72463B916A43Q36546401-43B2957C-F08E-4A11-BD78-BA0959A22E49Q36629298-EC01A4F6-AC46-4B47-B5DE-25B3912CC7EEQ36938328-A7037E6D-542B-4A99-BD1D-2037AE5A457FQ37051825-956863FF-80AE-4951-843F-E28A183AA171Q37066218-5B8ABE86-0D1F-4F44-8FE4-CC2054557790Q37101614-CB2D4E47-DC95-40CE-9B3E-D99B9621C8C6Q37132136-DB0F2781-EAF4-4995-BB5B-2ABCBE045892Q37181921-1DFF057C-81EC-42A5-85EB-B4DD506E4F06Q37203211-AA3CAD23-9713-442C-B258-BB31A6F50845Q37272149-658B1FF1-996D-476F-828D-BBE28C160DA3Q37283771-1D308037-645F-4606-8A33-48DFF71AAA16Q37401460-B4D16F64-93A7-4C3A-9CF3-C4D4393C9B79Q37448267-8BBEB0E6-9FBB-4A70-B3F5-4C506524A3BAQ37453914-C0D7A3CE-982B-428A-8C70-8F65A23EF305Q37581596-42093B1F-13CD-420A-BAD0-04706A896254Q37592859-EECAE1FE-5C81-4676-9540-85F6C211AB77Q37702522-A98F1591-2D14-40C8-91C9-EEB93DF996C9Q38070913-5C0F4BE4-FD35-4788-B883-9456BA94AB72Q38174174-F8341B53-77DD-454C-902D-08DCF0BDD029Q38201302-AB10F786-CCCD-478E-A3B2-0524BC87630B
P2860
Signaling and transcriptional regulation in osteoblast commitment and differentiation
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Signaling and transcriptional regulation in osteoblast commitment and differentiation
@ast
Signaling and transcriptional regulation in osteoblast commitment and differentiation
@en
type
label
Signaling and transcriptional regulation in osteoblast commitment and differentiation
@ast
Signaling and transcriptional regulation in osteoblast commitment and differentiation
@en
prefLabel
Signaling and transcriptional regulation in osteoblast commitment and differentiation
@ast
Signaling and transcriptional regulation in osteoblast commitment and differentiation
@en
P2093
P2860
P356
P1476
Signaling and transcriptional regulation in osteoblast commitment and differentiation
@en
P2093
Jianzhong Shao
Shuying Yang
Yi-Ping Li
P2860
P304
P356
10.2741/2296
P577
2007-05-01T00:00:00Z