Loss of methyl-CpG-binding domain protein 2 enhances endothelial angiogenesis and protects mice against hind-limb ischemic injury.
about
Genetic and epigenetic mechanisms in the development of arteriovenous malformations in the brainTelmisartan protects 5/6 Nx rats against renal injury by enhancing nNOS-derived NO generation via regulation of PPARγ signalingThe vasculome of the mouse brain.Comparative analysis of the alveolar macrophage proteome in ALI/ARDS patients between the exudative phase and recovery phase.Cx3cr1 deficiency in mice attenuates hepatic granuloma formation during acute schistosomiasis by enhancing the M2-type polarization of macrophagesDynamics of MBD2 deposition across methylated DNA regions during malignant transformation of human mammary epithelial cellsCoordinated Activation of VEGF/VEGFR-2 and PPARδ Pathways by a Multi-Component Chinese Medicine DHI Accelerated Recovery from Peripheral Arterial Disease in Type 2 Diabetic Mice.AAL exacerbates pro-inflammatory response in macrophages by regulating Mincle/Syk/Card9 signaling along with the Nlrp3 inflammasome assembly.A potential role for dendritic cell/macrophage-expressing DPP4 in obesity-induced visceral inflammation.TJ0711, a novel vasodilatory β-blocker, protects SHR rats against hypertension induced renal injuryA mechanistic role for DNA methylation in endothelial cell (EC)-enriched gene expression: relationship with DNA replication timing.Next steps in cardiovascular disease genomic research--sequencing, epigenetics, and transcriptomicsSUMO1 regulates endothelial function by modulating the overall signals in favor of angiogenesis and homeostatic responsesHMGB1 exacerbates bronchiolitis obliterans syndrome via RAGE/NF-κB/HPSE signaling to enhance latent TGF-β release from ECM.IL4 and IL-17A provide a Th2/Th17-polarized inflammatory milieu in favor of TGF-β1 to induce bronchial epithelial-mesenchymal transition (EMT).A simplified two-stitch sleeve technique for arterial anastomosis of cervical heterotopic cardiac transplantation in mice.Assessing the role of IL-35 in colorectal cancer progression and prognosis.Mechanical regulation of epigenetics in vascular biology and pathobiologyTim-1-Fc suppresses chronic cardiac allograft rejection and vasculopathy by reducing IL-17 productionEndothelial heterogeneity in the umbilico-placental unit: DNA methylation as an innuendo of epigenetic diversity.Causes and consequences of epigenetic regulation in wound healing.The relevance of epigenetics to occlusive cerebral and peripheral arterial disease.Evaluation of epigenetic inactivation of vascular endothelial growth factor receptors in head and neck squamous cell carcinoma.Fetal cardiac remodeling in twin pregnancies conceived by assisted reproductive technologies.Targeting vascular (endothelial) dysfunction.Effects of shear stress on endothelial cells: go with the flow.Disturbed Flow-Induced Endothelial Proatherogenic Signaling Via Regulating Post-Translational Modifications and Epigenetic Events.Coordination of Cellular Localization-Dependent Effects of Sumoylation in Regulating Cardiovascular and Neurological Diseases.Intracellular adenosine regulates epigenetic programming in endothelial cells to promote angiogenesis.Expression of cytokines, growth factors and apoptosis-related signal molecules in chronic pressure ulcer wounds healing.Aloperine Protects Mice against DSS-Induced Colitis by PP2A-Mediated PI3K/Akt/mTOR Signaling Suppression.MBD2 upregulates miR-301a-5p to induce kidney cell apoptosis during vancomycin-induced AKI.Epigenetic determinants of cardiovascular gene expression: vascular endothelium.Reduced MBD2 expression enhances airway inflammation in bronchial epithelium in COPD.Endothelial Nitric Oxide Synthase (NOS3) +894 G>T Associates with Physical Activity and Muscle Performance among Young AdultsThe Methylation Status of the Epigenome: Its Emerging Role in the Regulation of Tumor Angiogenesis and Tumor Growth, and Potential for Drug Targeting
P2860
Q26741878-E6BF3C2E-8791-4C31-905D-B12C5AA30915Q28396739-19BB5425-678D-49B1-945C-D8C8CCFE3321Q34534371-C080A247-78A1-4EAB-94EC-0A7BACDF5AD0Q34774988-A1DF953F-427F-4743-9D0F-416EE67BBC4BQ35802861-E41496B9-4EF6-4DA3-909A-9A964B52FA8FQ35842503-F338728C-1D57-42D7-AB61-D4A2B50B11D3Q36216091-D4B23C29-599C-4E5E-A6DA-C5448222F3D6Q36309480-835CE30F-4A29-41AC-B313-C4CA0178909DQ36477217-4A4AECD0-397B-41D0-8C39-5582351D84BBQ36788987-E70113E3-FF3F-4A11-9B3B-B7A652FCE8E2Q36797291-2BA11FB4-05B0-45A4-8473-9737B54A06C2Q36833627-BECDA6C4-310E-42D7-AE63-797B37BAC27FQ36881822-8918ACC5-9615-498C-B28C-35BA1ED9C53FQ36964047-348028EB-FC7B-40C6-A36D-0BA8EEFB74B5Q37054538-F5DCB695-BB49-44B9-BC71-C35B098DA970Q37099903-1227F925-D956-4729-9F3F-4A3E5A50FB0BQ37137999-8527D1A6-B86D-4D30-AAAF-07E6EDF86F42Q37294107-660F24FE-7336-4AD7-8507-9959FE7D7358Q37587334-9DB035A8-F545-49EE-B36A-6EEA9771F9EEQ38203875-FE4962D9-A6E1-4F29-B885-9D8ECE57D905Q38213105-9EAB3F2A-6302-4D12-B2BE-44FC4A2C8E4CQ38351869-6EA9DA0F-9D31-411F-A7B3-3824BFC0F771Q38697010-A5510C7A-C3A1-449C-9E94-141B61206227Q38784076-21B34B38-75D7-459B-A52C-885B0DC45B1AQ38836199-46A8B3F9-C2C7-468A-A574-BDD50A7AC5A6Q38849620-98A18250-CD7C-4988-AB45-D69F5D4F6666Q38926909-82FB6672-3FC3-4180-ABB9-0C4895681116Q39136019-2D070347-B306-421F-A8FC-A51811D96CDAQ41601038-ED37C5A9-2BE1-400A-8EC3-88D27A25C460Q45153077-78AAA43B-CBD9-443B-A83C-CE68EA48892DQ47152525-B82837A9-57B5-47E7-876C-6C31C1E0CEFCQ47164367-A2309BC4-3D8F-43F5-BBA9-3F2D40605147Q51661768-8EAB2EFD-423E-4917-B0CC-D5A6C32B747AQ54256495-445EDC99-21E0-4FC9-9D03-3B6AAD27EB92Q58693112-31085DF3-399A-46BC-8734-E27FFE0CE5FAQ58789495-80887254-FEE1-4639-AB87-CF4519FEB24E
P2860
Loss of methyl-CpG-binding domain protein 2 enhances endothelial angiogenesis and protects mice against hind-limb ischemic injury.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Loss of methyl-CpG-binding dom ...... nst hind-limb ischemic injury.
@en
Loss of methyl-CpG-binding dom ...... nst hind-limb ischemic injury.
@nl
type
label
Loss of methyl-CpG-binding dom ...... nst hind-limb ischemic injury.
@en
Loss of methyl-CpG-binding dom ...... nst hind-limb ischemic injury.
@nl
prefLabel
Loss of methyl-CpG-binding dom ...... nst hind-limb ischemic injury.
@en
Loss of methyl-CpG-binding dom ...... nst hind-limb ischemic injury.
@nl
P2093
P2860
P1433
P1476
Loss of methyl-CpG-binding dom ...... nst hind-limb ischemic injury.
@en
P2093
Cong-Yi Wang
Daowen Wang
David J Fulton
Huidong Shi
Mong-Heng Wang
Xiaoquan Rao
Yushan Zhang
P2860
P304
P356
10.1161/CIRCULATIONAHA.110.966408
P407
P50
P577
2011-06-13T00:00:00Z