Regulation of bone and cartilage development by network between BMP signalling and transcription factors. - Wikidata - wikimedia - TriplyDB

Regulation of bone and cartilage development by network between BMP signalling and transcription factors.

Regulation of bone and cartilage development by network between BMP signalling and transcription factors.

http://www.wikidata.org/entity/Q37976669

about

Use of bone morphogenetic proteins in mesenchymal stem cell stimulation of cartilage and bone repair Biomimetic approaches to complex craniofacial defects The role of the aryl hydrocarbon receptor in normal and malignant B cell development Designer Nodal/BMP2 Chimeras Mimic Nodal Signaling, Promote Chondrogenesis, and Reveal a BMP2-like Structure NAA10 controls osteoblast differentiation and bone formation as a feedback regulator of Runx2 CD200 expression in human cultured bone marrow mesenchymal stem cells is induced by pro-osteogenic and pro-inflammatory cues The transcription factor Foxc1 is necessary for Ihh-Gli2-regulated endochondral ossification Comparative analysis of zebrafish bone morphogenetic proteins 2, 4 and 16: molecular and evolutionary perspectives.The role of nuclear factor I-C in tooth and bone development.Signaling pathways in cartilage repair.Bone morphogenetic proteins and their antagonists: current and emerging clinical uses.Pericytes: multitasking cells in the regeneration of injured, diseased, and aged skeletal muscle.Monocytes induce STAT3 activation in human mesenchymal stem cells to promote osteoblast formation.Vascularization of primary and secondary ossification centres in the human growth plate.The host microenvironment influences prostate cancer invasion, systemic spread, bone colonization, and osteoblastic metastasis.Assessment of an efficient xeno-free culture system of human periodontal ligament stem cells.Probiotic supplementation promotes calcification in Danio rerio larvae: a molecular study Sox9 potentiates BMP2-induced chondrogenic differentiation and inhibits BMP2-induced osteogenic differentiation Effect of the ionic product of bioglass 60s on osteoblastic activity in canines New findings in osteoarthritis pathogenesis: therapeutic implications.Integration of multiple signaling pathways determines differences in the osteogenic potential and tissue regeneration of neural crest-derived and mesoderm-derived calvarial bones Bone Morphogenetic Protein Signaling Is Required for Aortic Valve Calcification.Osteoblast Differentiation at a Glance.SOX9: a useful marker for pancreatic ductal lineage of pancreatic neoplasms.Bone morphogenetic proteins in craniofacial surgery: current techniques, clinical experiences, and the future of personalized stem cell therapy.BMP growth factor signaling in a biomechanical context.Review of Signaling Pathways Governing MSC Osteogenic and Adipogenic Differentiation.The effects of flavonoids on bone.Crucial transcription factors in tendon development and differentiation: their potential for tendon regeneration.Relaxin augments BMP-2-induced osteoblast differentiation and bone formation.Synovium-Derived MicroRNAs Regulate Bone Pathways in Rheumatoid Arthritis.Epigenetic differences in human cartilage between mild and severe OA.The E3 ubiquitin ligase WWP2 facilitates RUNX2 protein transactivation in a mono-ubiquitination manner during osteogenic differentiation.Cleidocranial dysplasia and RUNX2-clinical phenotype-genotype correlation.Interaction between bone marrow stromal cells and neuroblastoma cells leads to a VEGFA-mediated osteoblastogenesis.Integrative analysis reveals relationships of genetic and epigenetic alterations in osteosarcoma Prostate cancer cells and bone stromal cells mutually interact with each other through bone morphogenetic protein-mediated signals.Regulation of Cartilage Development and Diseases by Transcription Factors.BMP-9 expression in human traumatic heterotopic ossification: a case report The Pathogenesis of Ossification of the Posterior Longitudinal Ligament.

P2860

Q26770044-00F81289-1675-4583-BAE3-2FB9F0A97C87 Q26782857-52EC647B-4BF6-4E97-8DD7-FFB174B00959 Q26859116-C9FD74CE-7E23-417E-B97B-9CD0D5E0E6AD Q27680784-5519D772-2624-4ECC-B5C1-712239ACAA27 Q28251073-C6187787-8935-4948-9E26-B5096B488329 Q28818511-3FCEBC7C-3700-45B7-84D3-3962F8F9D475 Q28910226-981B6924-1B0B-49EE-AC81-E079CE94AB4B Q30378791-B7BD4300-1D01-4414-B0FD-BC408278F266 Q33619118-FE10CCCA-0D97-42FD-8F87-49757F5E9802 Q33755839-0FC27396-DA64-45CA-B6A3-12708CD81C1E Q34025148-555370D4-9E8E-404B-B5D3-551FB59A0D80 Q34201678-37E5376B-D359-425A-ABD8-ECCB8D32E2A4 Q34339627-191D830B-FDA3-481A-BFAC-09C2E80D7DB3 Q34537812-1375BF8A-E9FB-4F32-834A-68A53C607897 Q34699785-03CD5091-C9D4-41E1-80D0-EE39A9E1EDAD Q34915107-5F769D4D-D704-4655-BD53-1AACA51C2941 Q35073018-5B716550-67FD-4550-B05F-A43D62DA1867 Q35097683-E173637B-0B53-4B4B-B349-3F6062D946AC Q36108077-E42512C2-BFEE-4C03-B545-FB829F7825E1 Q36515489-A8F5C4CE-7F4B-429A-9A3D-481477ACFCFD Q36790379-0C5675A9-D8CE-4A10-B2F5-E7BE9B4020C5 Q37033822-C28ACA86-C64A-485F-A3D7-1C312D5335C0 Q37292452-D479E497-C031-48F5-9B00-76F7154F18F7 Q37621990-D3349B20-CA71-4EB1-89B1-ABD93B81508F Q38066205-ED1E12CE-8116-4373-8AEB-06C028E80B50 Q38152403-F6461955-D1FD-42C8-B93B-1BB0FAFF3CBD Q38177814-F9A86EDC-C652-40C4-ABE8-783538E05142 Q38199625-C4D0EE8F-6916-4EDB-9F13-FD8923068CEE Q38202522-E3F7C620-2714-4568-9F18-AD6A8C992414 Q38440258-B91F74E3-68F7-4275-AFCC-D2E33FA21D50 Q38441150-53E02F92-55B2-4B75-B1F8-CFCCBA293AD8 Q38472690-66BE3B9A-6EA3-4B2A-9352-80ED6598D0FE Q38703654-4CB32D31-C4FF-456B-8DC9-32FEA26B4D0C Q38858036-07D62651-452A-4711-879E-682D4713834D Q38913336-01BFACB7-7A64-443C-A961-94D2EEE6F599 Q39246205-DF586935-78DB-4810-9FCF-01BF74B40739 Q39359077-95F930F4-2616-46DE-BD12-3F907E3E0A32 Q41685459-F9F45979-6B5B-4058-8769-AA4D3CF45248 Q41846701-FCE4300D-0AA2-4B3D-B438-BF0BFB0AB368 Q42018298-32705B21-DEC4-4BD6-B2AD-6DE5BB617128

P2860

Regulation of bone and cartilage development by network between BMP signalling and transcription factors.

http://www.wikidata.org/entity/Q37976669

description

article científic

@ca

article scientifique

@fr

articol științific

@ro

articolo scientifico

@it

artigo científico

@gl

artigo científico

@pt

artigo científico

@pt-br

artikel ilmiah

@id

artikull shkencor

@sq

artículo científico

@es

name

Regulation of bone and cartila ...... ing and transcription factors.

@en

Regulation of bone and cartila ...... ing and transcription factors.

@nl

type

label

Regulation of bone and cartila ...... ing and transcription factors.

@en

Regulation of bone and cartila ...... ing and transcription factors.

@nl

prefLabel

Regulation of bone and cartila ...... ing and transcription factors.

@en

Regulation of bone and cartila ...... ing and transcription factors.

@nl

P1433

Q37976669-577EB616-39FF-44E7-BA34-3F449F0A4D08

P1476

Q37976669-F3C12C2C-F187-47CC-97BE-E396F2579DFF

P2093

Q37976669-67D69886-B565-4FFB-A324-AB73A0283B42

Q37976669-A10BF8C8-D524-4947-9499-DE96607E2AD9

Q37976669-B1D6C77B-8309-4F65-9035-2A5073408AF8

Q37976669-C361D745-DAA5-4B9A-8D0F-A8DDE9DC2C6A

Q37976669-F915B26A-498E-4711-A949-CD3718E4E26C

P2860

Q37976669-031D819B-4A4E-4B09-80C3-273BB402AF0D

Q37976669-04595231-E78D-4545-8B2B-6A0C4B71C4B2

Q37976669-08BC4550-C45D-4DDA-A72E-8AF176EEC59C

Q37976669-0C814E77-293A-4400-9398-66DC91E15E45

Q37976669-114799A1-8E94-4E9E-BEA0-6FCCC650598F

Q37976669-1866D53F-AC7A-410C-B6AF-73BD2A641D58

Q37976669-1C265787-D593-43F4-946B-E7B672FC11CB

Q37976669-1D9CFABB-2383-4B2C-971B-9D287D2FCE11

Q37976669-23A6746B-0750-4E05-A2CB-EA8FF1C32EF0

Q37976669-29140B84-907A-4DEA-BAF1-DF4ACE21ECCB

P304

Q37976669-2BC361C0-5E95-4A4D-A0A7-4A1EC2BE420A

P31

Q37976669-F3B134BF-4107-41AC-8E05-C07968AD3748

P356

Q37976669-1D0F6B10-167B-44B9-93A1-74328E00B342

P433

Q37976669-90139780-C3EC-4E97-97B5-5DAFA7BEE650

P478

Q37976669-248496B4-CF56-4E66-955C-CAA0A75A01AE

P577

Q37976669-D32CD60C-E60D-4946-A8B1-C5270DF1E77E

P5875

Q37976669-A7ED82B1-4368-40A3-B06C-42E014F0C1E0

P698

Q37976669-F83B27B0-C796-4F51-B0AD-55E61FA68472

P921

Q37976669-516CC92D-EEA8-4AB2-AF0C-7E8E7452CAF5

P356

P1433

Journal of Biochemistry

P1476

Regulation of bone and cartila ...... ing and transcription factors.

@en

P2093

Kenji Hata

http://www.w3.org/2001/XMLSchema#string

Makoto Wakabayashi

http://www.w3.org/2001/XMLSchema#string

Riko Nishimura

http://www.w3.org/2001/XMLSchema#string

Takuma Matsubara

http://www.w3.org/2001/XMLSchema#string

Toshiyuki Yoneda

http://www.w3.org/2001/XMLSchema#string

P2860

Ski-interacting protein interacts with Smad proteins to augment transforming growth factor-beta-dependent transcription

The novel zinc finger-containing transcription factor osterix is required for osteoblast differentiation and bone formation

Smad6 interacts with Runx2 and mediates Smad ubiquitin regulatory factor 1-induced Runx2 degradation

The Ski-binding protein C184M negatively regulates tumor growth factor-beta signaling by sequestering the Smad proteins in the cytoplasm

Interaction with Smad4 is indispensable for suppression of BMP signaling by c-Ski

Endogenous TGF-beta signaling suppresses maturation of osteoblastic mesenchymal cells

Mutations involving the transcription factor CBFA1 cause cleidocranial dysplasia

Ski-interacting protein, a bifunctional nuclear receptor coregulator that interacts with N-CoR/SMRT and p300

A RUNX2/PEBP2alpha A/CBFA1 mutation displaying impaired transactivation and Smad interaction in cleidocranial dysplasia

Cbfa1, a candidate gene for cleidocranial dysplasia syndrome, is essential for osteoblast differentiation and bone development

P304

247-254

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1093/JB/MVS004

http://www.w3.org/2001/XMLSchema#string

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

151

http://www.w3.org/2001/XMLSchema#string

P577

2012-01-16T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

221755359

http://www.w3.org/2001/XMLSchema#string

P698

22253449

http://www.w3.org/2001/XMLSchema#string

P921