ATP regulates the differentiation of mammalian skeletal muscle by activation of a P2X5 receptor on satellite cells
about
A frameshift polymorphism in P2X5 elicits an allogeneic cytotoxic T lymphocyte response associated with remission of chronic myeloid leukemia.Molecular and functional properties of P2X receptors--recent progress and persisting challengesPurinergic signalling and cancerPurinergic signalling in neuron-glia interactionsNew insights into the relationship between mIGF-1-induced hypertrophy and Ca2+ handling in differentiated satellite cellsPurinergic receptor expression in the regeneration epidermis in a rat model of normal and delayed wound healingRemodeling of purinergic receptor-mediated Ca2+ signaling as a consequence of EGF-induced epithelial-mesenchymal transition in breast cancer cellsRegulating activation of transplanted cells controls tissue regeneration.Electrical stimuli are anti-apoptotic in skeletal muscle via extracellular ATP. Alteration of this signal in Mdx mice is a likely cause of dystrophy.MicroRNAs Regulate Cellular ATP Levels by Targeting Mitochondrial Energy Metabolism Genes during C2C12 Myoblast Differentiation.A novel mechanism of autophagic cell death in dystrophic muscle regulated by P2RX7 receptor large-pore formation and HSP90.Purinergic signalling during development and ageing.Activation of p38alpha/beta MAPK in myogenesis via binding of the scaffold protein JLP to the cell surface protein Cdo.Extracellular purines promote the differentiation of human bone marrow-derived mesenchymal stem cells to the osteogenic and adipogenic lineages.Developmental expression of P2X5 receptors in the mouse prenatal central and peripheral nervous systems.Microarray-Based Comparisons of Ion Channel Expression Patterns: Human Keratinocytes to Reprogrammed hiPSCs to Differentiated Neuronal and Cardiac Progeny.New insights into purinergic receptor signaling in neuronal differentiation, neuroprotection, and brain disorders.Purinergic receptor-mediated effects of adenosine 5'-triphosphate in urological malignant diseases.Purinergic signalling in the musculoskeletal system.Pannexin 3 inhibits proliferation of osteoprogenitor cells by regulating Wnt and p21 signalingLipid raft proteome reveals that oxidative phosphorylation system is associated with the plasma membrane.Connexin- and pannexin-based channels in normal skeletal muscles and their possible role in muscle atrophy.Purinergic signalling in the lower urinary tract.Regulation of pannexin and connexin channels and their functional role in skeletal muscles.Molecular Structure and Regulation of P2X Receptors With a Special Emphasis on the Role of P2X2 in the Auditory System.P2X7 purinoceptor alterations in dystrophic mdx mouse muscles: relationship to pathology and potential target for treatmentExtracellular ATP signaling during differentiation of C2C12 skeletal muscle cells: role in proliferation.ATP released by electrical stimuli elicits calcium transients and gene expression in skeletal muscle.Secretion of adenylate kinase 1 is required for extracellular ATP synthesis in C2C12 myotubes.P2 nucleotide receptors on C2C12 satellite cells.Purinergic receptor-mediated effects of ATP in high-grade bladder cancer.Pannexin channels mediate the acquisition of myogenic commitment in C2C12 reserve cells promoted by P2 receptor activationEffect of ATP on preadipocyte migration and adipocyte differentiation by activating P2Y receptors in 3T3-L1 cells.P2X and P2Y purinergic receptors on human intestinal epithelial carcinoma cells: effects of extracellular nucleotides on apoptosis and cell proliferation.Characterization of the ATP-hydrolysing activity of alpha-sarcoglycan.P2X(5) and P2X(7) receptors in human warts and CIN-612 organotypic raft cultures of human papillomavirus infected keratinocytes.Sensing muscle ischemia: coincident detection of acid and ATP via interplay of two ion channels.Pannexin 1 and pannexin 3 channels regulate skeletal muscle myoblast proliferation and differentiation.Amino acid variations resulting in functional and nonfunctional zebrafish P2X(1) and P2X (5.1) receptors.Purinergic receptors are part of a signalling system for proliferation and differentiation in distinct cell lineages in human anagen hair follicles.
P2860
Q24536117-F5141890-064A-4D60-9895-92C8512BC078Q24617046-F49745D6-F98F-4AC6-A39D-5979AEFB158DQ24618782-51B0D5A0-D631-4C23-BEAF-AE8204945D6FQ24684324-435F7A97-6A25-4AC7-9339-EF228D6E4212Q28543044-144D266E-BC95-41CB-B6CD-59900CEAFC17Q28567315-73572045-CE07-4870-8015-2F549A39907AQ33995723-B025972A-EC70-4D2C-B4E7-86080A6BEBD6Q34479403-158EE450-F246-4139-A126-CE70B2FDEAF2Q35054988-3D943B33-697C-4D3F-82D2-A5EF5088D8FDQ35641626-0114AA30-7558-47EF-84DA-F15232810BA1Q35853255-B34F211E-81FE-490E-BE1C-9CAC65520C27Q35930763-A7E4E0CD-258E-4D8C-B924-EE4E46F5E281Q36118993-07148CBD-A339-4BF7-927A-5002B5343CE4Q36715918-223E05DA-A535-417F-93DD-D1A4440C9FF2Q36821580-81D660EE-5C36-4A8E-8FBE-97BB0AAA9F83Q36830966-E72171C5-0B81-4856-810B-8800BC7C417BQ37135526-496E326B-FE82-4E53-B7B4-2F6BEA5B772DQ37381770-A577F814-9E44-4A35-86BA-1AFC17EC6155Q37468714-B32FD913-C2A0-4DB8-99CC-17750EC90B20Q37536548-FA6599A1-4F33-4C89-94CB-EE29A41FE971Q37818312-0C3229CD-1AF6-4284-99D5-D2CEC3009BBAQ38031128-E9FDAA6B-3400-466D-B24A-BC3166C7FA10Q38061933-128921D6-412B-4768-B0FF-CD01FDE2A94DQ38530528-DB251FB3-E111-48F3-B11E-1FB0196B5316Q38655779-C79E1774-1B68-47D7-813B-5517E3D5F08CQ39499956-87269CCE-98F6-4FE6-B0AE-A1FF6D43E25FQ39595028-859B4841-071E-4867-A1F0-3B3C9F9F572AQ39788355-C6431D96-68C6-45AF-9B79-EEDD03F14D3DQ39986986-F7277FB3-1C2A-455B-A384-05EB406B8C98Q39992965-2257CC7E-8E23-4E61-B434-118335D3E9E2Q40066801-ECD73C37-2075-4628-9F90-3E77F89205C0Q40351555-A391B099-9982-4BA7-AFE2-2B62D9A1177DQ40377008-0F511BC4-2C7B-4AF3-9A20-40D22228515FQ40468184-AB2DF803-A348-4246-BF15-24350DF7F5EBQ40576596-A3D0A8CC-A013-49CC-8C76-6F887C6946DBQ40957506-94C04347-C7B5-4E3F-807C-F065BBD42D7AQ41126236-C8CC423F-7718-4B5D-B176-BFB0BDAC42E6Q42969804-2C49A579-C2FC-46A2-A0D6-C9F36B6F6786Q43242956-8D6FC8F2-A6AD-40D5-90FD-597E2188F831Q43242964-C5D2F02A-E5C3-4393-A1DB-EACC7DEFF59D
P2860
ATP regulates the differentiation of mammalian skeletal muscle by activation of a P2X5 receptor on satellite cells
description
2002 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2002
@ast
im Juli 2002 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2002/07/22)
@sk
vědecký článek publikovaný v roce 2002
@cs
wetenschappelijk artikel (gepubliceerd op 2002/07/22)
@nl
наукова стаття, опублікована в липні 2002
@uk
مقالة علمية (نشرت في 22-7-2002)
@ar
name
ATP regulates the differentiat ...... X5 receptor on satellite cells
@ast
ATP regulates the differentiat ...... X5 receptor on satellite cells
@en
ATP regulates the differentiat ...... X5 receptor on satellite cells
@nl
type
label
ATP regulates the differentiat ...... X5 receptor on satellite cells
@ast
ATP regulates the differentiat ...... X5 receptor on satellite cells
@en
ATP regulates the differentiat ...... X5 receptor on satellite cells
@nl
prefLabel
ATP regulates the differentiat ...... X5 receptor on satellite cells
@ast
ATP regulates the differentiat ...... X5 receptor on satellite cells
@en
ATP regulates the differentiat ...... X5 receptor on satellite cells
@nl
P2860
P356
P1476
ATP regulates the differentiat ...... X5 receptor on satellite cells
@en
P2093
Joseph T. Neary
Philip M. Dunn
P2860
P304
P356
10.1083/JCB.200202025
P407
P577
2002-07-22T00:00:00Z