Differential transcriptome analysis of intraarticular lesional vs intact cartilage reveals new candidate genes in osteoarthritis pathophysiology.
about
WISP-1/CCN4 regulates osteogenesis by enhancing BMP-2 activityFunctional genomics in osteoarthritis: Past, present, and futureChanges in Membrane Receptors and Ion Channels as Potential Biomarkers for OsteoarthritisSequential alterations in catabolic and anabolic gene expression parallel pathological changes during progression of monoiodoacetate-induced arthritisTranscriptome-wide gene regulation by gentle treadmill walking during the progression of monoiodoacetate-induced arthritis.Comparison of different methods for preparation and characterization of total RNA from cartilage samples to uncover osteoarthritis in vivo.Immunopathogenesis of osteoarthritisEmerging Roles of circRNA Related to the Mechanical Stress in Human Cartilage Degradation of OsteoarthritisADAMTS and ADAM metalloproteinases in osteoarthritis - looking beyond the 'usual suspects'.DOT1L safeguards cartilage homeostasis and protects against osteoarthritis.Osteoarthritic cartilage explants affect extracellular matrix production and composition in cocultured bone marrow-derived mesenchymal stem cells and articular chondrocytes.Genes involved in the osteoarthritis process identified through genome wide expression analysis in articular cartilage; the RAAK study.Subchondral bone influences chondrogenic differentiation and collagen production of human bone marrow-derived mesenchymal stem cells and articular chondrocytes.Transcriptome-wide analysis of messenger RNA decay in normal and osteoarthritic human articular chondrocytesHigh expression of periostin is dramatically associated with metastatic potential and poor prognosis of patients with osteosarcoma.Transcriptional analysis of micro-dissected articular cartilage in post-traumatic murine osteoarthritis.Expression and pathological effects of periostin in human osteoarthritis cartilageRNA Microarray Analysis of Macroscopically Normal Articular Cartilage from Knees Undergoing Partial Medial Meniscectomy: Potential Prediction of the Risk for Developing Osteoarthritis.The distribution pattern of critically short telomeres in human osteoarthritic knees.Changes in chondrocyte gene expression following in vitro impaction of porcine articular cartilage in an impact injury model.The genetics and functional analysis of primary osteoarthritis susceptibility.Different responses to mechanical injury in neonatal and adult ovine articular cartilageDegradome expression profiling in human articular cartilage.Identification of DNA methylation changes associated with disease progression in subchondral bone with site-matched cartilage in knee osteoarthritisThe TMSB4 Pseudogene LncRNA Functions as a Competing Endogenous RNA to Promote Cartilage Degradation in Human Osteoarthritis.Effects of mechanical stress on chondrocyte phenotype and chondrocyte extracellular matrix expression.Involvement of angiopoietin-like 4 in matrix remodeling during chondrogenic differentiation of mesenchymal stem cells.Insights from human genetic studies into the pathways involved in osteoarthritis.Integrative epigenomics, transcriptomics and proteomics of patient chondrocytes reveal genes and pathways involved in osteoarthritis.Recent advances in the understanding of molecular mechanisms of cartilage degeneration, synovitis and subchondral bone changes in osteoarthritis.The first international workshop on the epigenetics of osteoarthritis.Models to define the stages of articular cartilage degradation in osteoarthritis development.Microarray study of gene expression profile to identify new candidate genes involved in the molecular mechanism of leptin-induced knee joint osteoarthritis in ratMicroRNA Profiling in Cartilage Ageing.Identification of stable normalization genes for quantitative real-time PCR in porcine articular cartilage.Absolute quantification of selected proteins in the human osteoarthritic secretome.Aquaporin 1 contributes to chondrocyte apoptosis in a rat model of osteoarthritis.miR-29b regulates expression of collagens I and III in chondrogenically differentiating BMSC in an osteoarthritic environmentThe synovial microenvironment of osteoarthritic joints alters RNA-seq expression profiles of human primary articular chondrocytes.Genes expressed in blood link osteoarthritis with apoptotic pathways.
P2860
Q24635850-F5F120C3-82EA-4CC1-970E-A17071E80A2EQ26749633-9EC93376-C9A1-462F-98F4-4BB357C30E43Q26773155-6EB96288-9A1C-47E6-B438-1B21ACC85245Q27321643-AE5CF85B-82D6-4A7B-BE9D-B9A5F583B639Q30500798-1CA43F77-2E59-4992-8AAC-0CFECA49DEBEQ33533892-FBC7B906-EC37-404C-A0B0-69731EBE4388Q33587966-C25623AD-BACA-4240-8950-956AA6960946Q33633097-86D65FDE-1988-4DC0-9F11-D1489F486111Q33808240-A2DCAD2C-F7FA-4FB6-99BA-9D9330F1B55FQ33827165-05ACFC3A-D0AD-428A-B92E-ACF5B2084E98Q33900522-8F3E1C87-D554-46C4-B9A7-BD4C9F501CE4Q33940184-9B6B712A-C197-401E-B471-807394CEF094Q34402219-B02374A8-ABD5-40F5-B802-4003301B8E69Q34521922-AF3742EC-B1C4-4B3D-AD9C-6B9AF1BFA64CQ34586512-C0F8A737-C09B-4E38-A444-F653F4731DACQ35217087-55FE178D-1418-42F8-BD11-B16090F9ACFEQ35750612-66745212-6988-43DA-8242-8AB4B939051FQ36015312-CAF2D3AE-B989-48EA-BC2A-91C3D1817509Q36084922-89B2B6E4-2762-4CA6-815C-31B67A1C38BBQ36557037-4AF37AA8-0639-4A6A-B081-8055CEC39F7CQ36620051-91ADB380-22CE-441A-BC11-0632B44C5204Q36952532-A7F3E6D7-D759-40D0-9BE1-CFE87AEE91D5Q37270886-3EA7F5EB-AC10-4D84-B6DB-31920E475DC7Q37298687-720D6C13-85EE-47C3-BF71-E304215301D9Q37418494-D8FEDAF5-60FC-45CB-B809-1686AF7C5424Q37419090-E1D594C5-AF55-4A61-AF20-38312E78A436Q37653289-CE9C4109-3E26-4D6B-A0F0-F135C062308AQ38130079-E4806697-CBD3-4054-B208-FD6136C66D9BQ38615243-0194517E-DE1F-4C06-86D0-7A75BDE6DC1CQ38861162-4ED9291B-4BE2-4C55-A469-257E03018042Q38888317-083F7533-DC82-4D69-8345-89838AC102BBQ39353817-C7AB9F61-3CA0-4018-A3A6-1DB08AA5D0BCQ40967339-6E528030-0750-4F18-A217-0D1C8C1A0429Q41613491-8C92D0DD-CF27-4A02-A503-46B542B5CAA5Q41700090-BCA0A6B4-426B-48D5-BA85-92BCD0B7B729Q42047060-747AE4EF-0C1B-4A3E-BFD4-1300A473007EQ42154133-D2112A45-83DB-49E4-97A5-B4100D221789Q42379009-358F8E37-3DB9-45CC-A457-485953E94D2CQ42773924-A824537C-D1DE-4868-A7D9-11CF55B63972Q43889695-1FD4E922-EDB1-4B6F-AA38-9E3751B7808F
P2860
Differential transcriptome analysis of intraarticular lesional vs intact cartilage reveals new candidate genes in osteoarthritis pathophysiology.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Differential transcriptome ana ...... steoarthritis pathophysiology.
@en
type
label
Differential transcriptome ana ...... steoarthritis pathophysiology.
@en
prefLabel
Differential transcriptome ana ...... steoarthritis pathophysiology.
@en
P2093
P921
P1476
Differential transcriptome ana ...... steoarthritis pathophysiology.
@en
P2093
P304
P356
10.1016/J.JOCA.2008.07.010
P577
2008-09-04T00:00:00Z