sameAs
DUX4c is up-regulated in FSHD. It induces the MYF5 protein and human myoblast proliferationLive cell imaging reveals marked variability in myoblast proliferation and fateExpression and localisation of annexin VII (synexin) isoforms in differentiating myoblastsBinding of ADAM12, a marker of skeletal muscle regeneration, to the muscle-specific actin-binding protein, alpha -actinin-2, is required for myoblast fusionInvolvement of Ras and Ral in chemotactic migration of skeletal myoblastsT-type alpha 1H Ca2+ channels are involved in Ca2+ signaling during terminal differentiation (fusion) of human myoblastsCharacterization of human myoblast differentiation for tissue-engineering purposes by quantitative gene expression analysisRole of insulin-like growth factor binding protein-3 (IGFBP-3) in the differentiation of primary human adult skeletal myoblastsMyoD1: a nuclear phosphoprotein requiring a Myc homology region to convert fibroblasts to myoblastsThe nephroblastoma overexpressed gene (NOV/ccn3) protein associates with Notch1 extracellular domain and inhibits myoblast differentiation via Notch signaling pathwayCell-type specific adhesive interactions of skeletal myoblasts with thrombospondin-1Overlapping functions of nuclear envelope proteins NET25 (Lem2) and emerin in regulation of extracellular signal-regulated kinase signaling in myoblast differentiationA metalloprotease-disintegrin participating in myoblast fusionERK6, a mitogen-activated protein kinase involved in C2C12 myoblast differentiationCloning of a human ether-a-go-go potassium channel expressed in myoblasts at the onset of fusionMyostatin reduces Akt/TORC1/p70S6K signaling, inhibiting myoblast differentiation and myotube sizeRecombinant human acid alpha-glucosidase corrects acid alpha-glucosidase-deficient human fibroblasts, quail fibroblasts, and quail myoblastsInhibition of differentiation in myoblasts deprived of the interferon-related protein PC4Human carcinoembryonic antigen, an intercellular adhesion molecule, blocks fusion and differentiation of rat myoblastsAffixin activates Rac1 via betaPIX in C2C12 myoblastThe Prader-Willi syndrome protein necdin interacts with the E1A-like inhibitor of differentiation EID-1 and promotes myoblast differentiationRegulation of human myoblast differentiation by PEBP4CSX/Nkx2.5 modulates differentiation of skeletal myoblasts and promotes differentiation into neuronal cells in vitroG-protein coupled receptor BAI3 promotes myoblast fusion in vertebrates.Tip60 regulates myoblast differentiation by enhancing the transcriptional activity of MyoD via their physical interactionsThe role of histone chaperones in osteoblastic differentiation of C2C12 myoblastsLysosomal triacylglycerol lipase activity in L6 myoblasts and its changes on differentiationDirect inhibition of G(1) cdk kinase activity by MyoD promotes myoblast cell cycle withdrawal and terminal differentiation.Mirk/Dyrk1B mediates survival during the differentiation of C2C12 myoblastsThe MyoD-inducible p204 protein overcomes the inhibition of myoblast differentiation by Id proteins.Myoblast city, the Drosophila homolog of DOCK180/CED-5, is required in a Rac signaling pathway utilized for multiple developmental processesCeramide 1-phosphate stimulates proliferation of C2C12 myoblastsHuman muscle economy myoblast differentiation and excitation-contraction coupling use the same molecular partners, STIM1 and STIM2Smad3 signaling is required for satellite cell function and myogenic differentiation of myoblastsPC4/Tis7/IFRD1 stimulates skeletal muscle regeneration and is involved in myoblast differentiation as a regulator of MyoD and NF-kappaBAutomated drug screening with contractile muscle tissue engineered from dystrophic myoblastsLocal production of the p40 subunit of interleukin 12 suppresses T-helper 1-mediated immune responses and prevents allogeneic myoblast rejectionInitiation of myoblast to brown fat switch by a PRDM16-C/EBP-beta transcriptional complexAcheron, a Lupus antigen family member, regulates integrin expression, adhesion, and motility in differentiating myoblastsThe CDM superfamily protein MBC directs myoblast fusion through a mechanism that requires phosphatidylinositol 3,4,5-triphosphate binding but is independent of direct interaction with DCrk
P921
Q21091176-3DB47480-1B9C-4224-B0F5-9370B352FD27Q22001188-DA15FF23-4975-46EE-BF28-61C4D01CF715Q22253176-60B2DFF2-BF43-4AE8-8A4C-3C4EA10FD3CDQ22254011-E9E26C7F-3A40-4EDC-AEAD-594E0D201F68Q22254223-CC5DF4BD-52D7-427F-9B86-A81B84ADC27EQ22254433-2DE4DF2C-8BDE-49D3-B914-79F7D8BE91E5Q24294666-116F8731-365F-40F8-89BB-8201B2B5901AQ24295195-85E8E2B1-603E-4CA4-AB00-ECDE75176824Q24297101-671C35C4-3A1B-4353-8C93-5D08C8CA8971Q24298994-9182B822-45BA-425F-BAD3-AE8299C9A027Q24305981-992A1860-C05B-4BA5-B5D8-680A8C7A4705Q24311440-A81621CF-69DC-4F74-B19E-2F49BB2AD584Q24311766-0BD11D1B-E97C-4DF7-8500-ED5B99477AA7Q24312012-2C761DC9-6929-488C-BB05-EBBB595B3C1AQ24313626-AA78B9C0-6E28-42E0-AC31-00405A4959D1Q24314330-E96FC64D-9779-455C-B95A-166AC589E21BQ24317595-FA79F290-E512-4E42-88B6-DCE5C75D1901Q24318518-82C69029-3C90-400D-BD65-ED1D0B0C641EQ24318694-DDAB67ED-48A3-4E70-8D6F-321F4426860AQ24321686-D642536C-F985-457C-B6C4-971C0A4FC4C5Q24321957-A76C82C1-C65D-489C-8623-DC5EFDB0F303Q24336720-A3770306-9B29-4284-A315-496D3157ABF8Q24338240-17DC8889-D5D3-4356-BDC8-6B29233EE2E9Q24338272-5AD1F3E3-D01E-45A4-BE60-E067BD311A8CQ24338410-5896D86A-AA28-4EE2-99B8-26A2E40643CAQ24338424-7F04B9FE-3D7D-4890-9A48-4F368F8F8DFBQ24529173-38C1DEA9-2596-465C-B5C1-B8965DEC5E4AQ24529985-310DE217-96B2-43E3-A5D9-7DEE02AEAAFFQ24532054-FADA174F-9774-408B-933E-F3F306B0F927Q24537261-52AD129A-F083-430B-8F10-E92E69452773Q24596003-DA8FCFFC-94C6-4C47-826D-64D429D2EBC3Q24607910-EECA5497-5EF1-4BEA-89A1-62CD6B1A20C7Q24609741-D83CEB48-253C-4185-8291-EBE0DACED3B3Q24615313-138935D6-5235-4FA5-808F-BDFC7D85AA49Q24626949-8DA76691-F71F-4DD8-8A87-42B23132232DQ24629251-46854C2C-316B-47BD-8AF4-ED312CC7E52BQ24630780-94C065D6-DC03-4088-8AEE-E63383F148E2Q24643490-F03316CB-4DF9-46FD-8225-79C99CF6CB46Q24646939-024ACD79-159B-4504-901F-A7FA08FED3F7Q24672486-0B3A00EE-BCB1-4521-9D51-283BA8F36819
P921
description
cellule animale
@fr
muskelbildende Vorläuferzelle
@de
name
Mioblast
@pl
Myoblast
@cs
Myoblast
@de
Myoblast
@sk
Myoblast
@sv
mioblast
@ca
mioblasto
@pt
myoblast
@en
myoblast
@nn
myoblaste
@fr
type
label
Mioblast
@pl
Myoblast
@cs
Myoblast
@de
Myoblast
@sk
Myoblast
@sv
mioblast
@ca
mioblasto
@pt
myoblast
@en
myoblast
@nn
myoblaste
@fr
altLabel
Mioblásto
@pt
Myoblasten
@de
Myoblaster
@sv
Myogenese
@de
Myotuben
@de
Prämyoblast
@de
Sarkoblast
@de
embryonic muscle cell
@en
precursor muscle cell
@en
أرومة العضلية
@ar
prefLabel
Mioblast
@pl
Myoblast
@cs
Myoblast
@de
Myoblast
@sk
Myoblast
@sv
mioblast
@ca
mioblasto
@pt
myoblast
@en
myoblast
@nn
myoblaste
@fr
P486
P646
P672
P1296
P1402
P1417
science/myoblast
P1694
H2.00.05.2.03004
P1705
myoblastus
@la
P1748
P2892
P31
P3827
P486
P646
P672
A11.872.620