miR-29 suppression of osteonectin in osteoblasts: regulation during differentiation and by canonical Wnt signaling - sprookjes - yvandenbroek - TriplyDB

miR-29 suppression of osteonectin in osteoblasts: regulation during differentiation and by canonical Wnt signaling

miR-29 suppression of osteonectin in osteoblasts: regulation during differentiation and by canonical Wnt signaling

http://www.wikidata.org/entity/Q33923106

about

MicroRNAs: Potential Biomarkers and Therapeutic Targets for Alveolar Bone Loss in Periodontal Disease The role of microRNAs in bone remodeling MicroRNA-mediated regulation of differentiation and trans-differentiation in stem cells The two faces of miR-29 Vitamin D and microRNAs in bone Regulation of gene expression in osteoblasts.MicroRNAs regulate bone development and regeneration Bone marrow stroma-derived miRNAs as regulators, biomarkers and therapeutic targets of bone metastasis The microRNA-29 family in cartilage homeostasis and osteoarthritis Reduction of Dicer impairs Schwann cell differentiation and myelination miR-29a modulates neuronal differentiation through targeting REST in mesenchymal stem cells Mechanotransduction in musculoskeletal tissue regeneration: effects of fluid flow, loading, and cellular-molecular pathways.Role of the microRNA-29 family in fibrotic skin diseases.MicroRNAs differentially expressed in postnatal aortic development downregulate elastin via 3' UTR and coding-sequence binding sites COL1A1 and miR-29b show lower expression levels during osteoblast differentiation of bone marrow stromal cells from Osteogenesis Imperfecta patients.Post-transcriptional regulation in osteoblasts using localized delivery of miR-29a inhibitor from nanofibers to enhance extracellular matrix deposition.Attenuation of the beta-catenin/TCF4 complex in colorectal cancer cells induces several growth-suppressive microRNAs that target cancer promoting genes.miR-29 modulates Wnt signaling in human osteoblasts through a positive feedback loop.microRNA-29 negatively regulates EMT regulator N-myc interactor in breast cancer Identification of microRNA-regulated gene networks by expression analysis of target genes.miR-764-5p promotes osteoblast differentiation through inhibition of CHIP/STUB1 expression.Serum microRNA is a promising biomarker for osteogenesis imperfecta MicroRNAs involved in bone formation.Canonical wnt signaling regulates extracellular matrix expression in the trabecular meshwork Differential expression of exosomal microRNAs in prefrontal cortices of schizophrenia and bipolar disorder patients A microRNA expression signature of osteoclastogenesis MicroRNAs Regulate Vascular Medial Calcification.Coordinated regulation of extracellular matrix synthesis by the microRNA-29 family in the trabecular meshwork Cross-talk between miR-29 and transforming growth factor-betas in trabecular meshwork cells.Mir-29 repression in bladder outlet obstruction contributes to matrix remodeling and altered stiffness.Molecular and functional characteristics of ovarian surface epithelial cells transformed by KrasG12D and loss of Pten in a mouse model in vivo.MiR-27a targets sFRP1 in hFOB cells to regulate proliferation, apoptosis and differentiation.miR-29a/b enhances cell migration and invasion in nasopharyngeal carcinoma progression by regulating SPARC and COL3A1 gene expression.miR-29 is a major regulator of genes associated with pulmonary fibrosis.A single nucleotide polymorphism in osteonectin 3' untranslated region regulates bone volume and is targeted by miR-433 Photoactivated miR-148b-nanoparticle conjugates improve closure of critical size mouse calvarial defects Integrative nucleophosmin mutation-associated microRNA and gene expression pattern analysis identifies novel microRNA - target gene interactions in acute myeloid leukemia.Therapeutic Opportunities for Targeting microRNAs in Cancer.Human bone marrow stromal cell confluence: effects on cell characteristics and methods of assessment.Non-housekeeping genes expressed in human trabecular meshwork cell cultures.

P2860

Q26741214-D7E60056-3E71-4BCE-A70B-2F543F0B6E5C Q26799815-0B86761D-7DD9-4020-AA75-E2D73C31976C Q26829175-A361BD75-F537-4EBE-BEB1-8F58C6CE84F0 Q26996481-771CEBDE-8C4E-4188-8DD1-C6980066842A Q27015808-A34EF8E0-14B6-45E3-B3FD-EC8D22146436 Q27691363-4FDFB12E-6E78-4D84-85C4-F3EE014DA1DE Q28081746-D0F0F140-C188-4F79-9E11-F07F8D51CFE9 Q28087442-69442D28-1C34-45CF-A0A5-CB8525EC1A53 Q28115325-33D08826-78E8-4054-857C-55563BF8790D Q28569289-C92C7EC2-9200-42A5-9A20-BF968AC3261D Q28574490-8B513688-77D4-47A4-B729-570EBF3DF01F Q30430989-DE03B543-4B69-4382-ADE8-AE54EF066476 Q33742115-4661A232-5B03-4E20-952A-CBD20924C9D0 Q33815785-FBCF48DB-18D5-422B-BDB7-E79434194354 Q33914178-97EFA8F7-A7EC-4FDD-8E3D-83BD4863A908 Q33965312-3FEDB1F5-2B97-41BF-A6E5-AF43E06B3B04 Q34036835-8650E9BB-14F9-4E0B-82B3-342CFEB349F8 Q34055717-541F6961-918E-4FA2-B8EF-F77838243466 Q34217346-802C94B8-B046-49F2-ADCC-C9205B0AF754 Q34255426-F2AC2435-E779-4C21-B3B0-41A15EE6B606 Q34260429-D04E85BB-1A43-4119-8F37-7B6575CECCEE Q34377839-4560C1B2-C128-4333-A370-011AFFFA6AD0 Q34527129-C1A41938-F0E2-427C-B573-9B35A64F0038 Q34547034-2513D938-13AD-4B6F-AEE9-168677094256 Q34575008-D4057C95-4180-4B15-AE0E-1A6DDBE7F86B Q34774013-8481AF5D-117F-452D-8F18-D3E4C247C0BD Q34774697-FBA90BA8-B771-4DC4-A603-42799EBA4CB6 Q35027590-EFA7A650-DF80-46FD-81DA-B3313DA0F65D Q35027630-341C0398-580D-48BA-BC76-5C82E3508C8B Q35067766-CE0BDD41-CE73-48E2-B6B8-A8935C524A49 Q35116008-F81FF69E-88A5-49A9-8DE0-B16421F3C905 Q35119958-51F5154E-19B1-4242-8F11-689164B6AB44 Q35191816-B063398A-F84D-4835-BB9C-0ECACEEE00B9 Q35219800-8139CD4D-A903-440C-ABA3-82785A0A0F13 Q35224523-70224F3F-1BF6-475C-90E8-0B838C1FCD41 Q35424280-AD4F2A40-8457-4FA3-AF0B-D3064440E7FE Q35596909-00094B0B-225B-484C-89C6-4546730910C7 Q35673914-43C4131C-0A98-478C-98B0-A2A52BB79586 Q35706934-B693571A-D613-4E5C-8809-B9D40F689E83 Q35736309-CA9265A4-7F78-44F6-9F9D-0D293ABA8793

P2860

miR-29 suppression of osteonectin in osteoblasts: regulation during differentiation and by canonical Wnt signaling

http://www.wikidata.org/entity/Q33923106

description

2009 nî lūn-bûn

@nan

2009 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի սեպտեմբերին հրատարակված գիտական հոդված

@hy

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

name

miR-29 suppression of osteonec ...... and by canonical Wnt signaling

@ast

miR-29 suppression of osteonec ...... and by canonical Wnt signaling

@en

type

label

miR-29 suppression of osteonec ...... and by canonical Wnt signaling

@ast

miR-29 suppression of osteonec ...... and by canonical Wnt signaling

@en

prefLabel

miR-29 suppression of osteonec ...... and by canonical Wnt signaling

@ast

miR-29 suppression of osteonec ...... and by canonical Wnt signaling

@en

P1433

Q33923106-47312209-7B62-44BE-AAFD-975DAE0D6B1C

P1476

Q33923106-BE10952D-F0FF-46AC-8EEF-CBC2BB9DC1C1

P2093

Q33923106-2244CF78-2C22-47EE-ADB5-AEAE36880EA4

Q33923106-471AD8D4-8A6D-47E2-8524-A2DCCD591977

Q33923106-7192BC71-35D2-495D-BF48-0D793F8C3072

P2860

Q33923106-0BB57281-D009-4407-A681-933C17EAE5D5

Q33923106-12D7E637-BE9B-490B-9EDB-83640FF8B334

Q33923106-197EE7CF-C4AC-406B-A91A-6FB546747791

Q33923106-198EE86C-F505-4749-A722-3BC4C0A97141

Q33923106-1FC7A47C-1470-4A4C-B5F7-849AC197F6EC

Q33923106-21624478-A48C-4323-B130-4974DFDA3E62

Q33923106-216DC213-ED0D-4D76-876B-738452DCBC06

Q33923106-2306486F-6B7F-495B-BDAC-EF7B20EC7B65

Q33923106-2A0BBB49-81DD-42B9-ABF8-02E776F8916D

Q33923106-2FA14FEA-04C8-4D9C-9BEB-7A6F40ABFBB1

P304

Q33923106-978DF651-CA8C-4E7B-A5DE-4ED44C262AA0

P31

Q33923106-AFC8AD29-764B-4F87-AE25-3575D79F9C0E

P356

Q33923106-93BA0A2C-766B-4AD7-B7ED-9591CA2514ED

P433

Q33923106-7E18832E-1B05-407B-AAF2-FC906CD6CAF2

P478

Q33923106-C4F09996-0E7E-4A52-804F-307E12419795

P577

Q33923106-091CCD70-7FA2-49D1-8CF6-AF88CA282E83

P5875

Q33923106-2A655219-1AEB-4D2E-B077-93A75A234FB2

P698

Q33923106-4EB0555C-7C6D-44F3-883C-E0789A0D19C1

P921

Q33923106-9EBC3F8B-CC54-4969-8F8C-070882A083E8

P932

Q33923106-06702FC0-828C-499E-A02B-2326075CDF65

P356

P1433

Journal of Cellular Biochemistry

P1476

miR-29 suppression of osteonec ...... and by canonical Wnt signaling

@en

P2093

Anne M Delany

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

Catherine B Kessler

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

Kristina Kapinas

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

P2860

The extracellular glycoprotein SPARC interacts with platelet-derived growth factor (PDGF)-AB and -BB and inhibits the binding of PDGF to its receptors

MicroRNA targeting specificity in mammals: determinants beyond seed pairing

Widespread microRNA repression by Myc contributes to tumorigenesis

Prediction of mammalian microRNA targets

MicroRNAs: genomics, biogenesis, mechanism, and function

MicroRNA 29c is down-regulated in nasopharyngeal carcinomas, up-regulating mRNAs encoding extracellular matrix proteins.

Involvement of microRNA in AU-rich element-mediated mRNA instability

Real-time quantitative RT-PCR analysis of human bone marrow stromal cells during osteogenic differentiation in vitro

Micromanagers of gene expression: the potentially widespread influence of metazoan microRNAs

Dysregulation of microRNAs after myocardial infarction reveals a role of miR-29 in cardiac fibrosis

P304

216-224

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

P31

scholarly article

P356

10.1002/JCB.22243

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

P433

1

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

P478

108

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

P577

2009-09-01T00:00:00Z

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

P5875

26329547

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

P698

19565563

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

P921

P932

2888144

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