The p38alpha/beta MAPK functions as a molecular switch to activate the quiescent satellite cell.
about
Muscle satellite cell heterogeneity and self-renewalp38 MAPK Signaling in Osteoblast DifferentiationMuscle Satellite Cells: Exploring the Basic Biology to Rule ThemTissue-specific stem cells: lessons from the skeletal muscle satellite cellLying low but ready for action: the quiescent muscle satellite cellGlobular adiponectin activates motility and regenerative traits of muscle satellite cellsRegulation of Muscle Stem Cell Functions: A Focus on the p38 MAPK Signaling PathwaySWI/SNF-directed stem cell lineage specification: dynamic composition regulates specific stages of skeletal myogenesisIntrinsic and extrinsic mechanisms regulating satellite cell functionA role for nephrin, a renal protein, in vertebrate skeletal muscle cell fusionCoordination of satellite cell activation and self-renewal by Par-complex-dependent asymmetric activation of p38α/β MAPKKIF5B transports BNIP-2 to regulate p38 mitogen-activated protein kinase activation and myoblast differentiation.MAPK signaling pathways and HDAC3 activity are disrupted during differentiation of emerin-null myogenic progenitor cells.p38-{gamma}-dependent gene silencing restricts entry into the myogenic differentiation program.Chromatin: the interface between extrinsic cues and the epigenetic regulation of muscle regeneration.Activation of Cdc6 by MyoD is associated with the expansion of quiescent myogenic satellite cells.p38 MAPK signaling underlies a cell-autonomous loss of stem cell self-renewal in skeletal muscle of aged mice.Polarity in plant asymmetric cell division: Division orientation and cell fate differentiation.MAP kinase phosphatase-1 deficiency impairs skeletal muscle regeneration and exacerbates muscular dystrophyS100B engages RAGE or bFGF/FGFR1 in myoblasts depending on its own concentration and myoblast density. Implications for muscle regenerationTNF/p38α/polycomb signaling to Pax7 locus in satellite cells links inflammation to the epigenetic control of muscle regeneration.Angiotensin type 2 receptor signaling in satellite cells potentiates skeletal muscle regeneration.Regulation of myogenic activation of p38 MAPK by TACE-mediated TNFα releaseRejuvenation of the muscle stem cell population restores strength to injured aged muscles.Muscle stem cells at a glanceSix1 regulates MyoD expression in adult muscle progenitor cells.Curcumin prevents lipopolysaccharide-induced atrogin-1/MAFbx upregulation and muscle mass loss.The altered fate of aging satellite cells is determined by signaling and epigenetic changes.Sculpting chromatin beyond the double helix: epigenetic control of skeletal myogenesis.Stem cell activation in skeletal muscle regeneration.Post-transcriptional regulation of satellite cell quiescence by TTP-mediated mRNA decay.Genetic analysis of p38 MAP kinases in myogenesis: fundamental role of p38alpha in abrogating myoblast proliferationThe skeletal muscle satellite cell: still young and fascinating at 50Hyperhomocysteinemia inhibits satellite cell regenerative capacity through p38 alpha/beta MAPK signaling.Entry of muscle satellite cells into the cell cycle requires sphingolipid signaling.Stra13 regulates satellite cell activation by antagonizing Notch signaling.Reciprocal inhibition between Pax7 and muscle regulatory factors modulates myogenic cell fate determination.Activation of p38alpha/beta MAPK in myogenesis via binding of the scaffold protein JLP to the cell surface protein Cdo.Ex Vivo Expansion and In Vivo Self-Renewal of Human Muscle Stem Cells.TAK1 modulates satellite stem cell homeostasis and skeletal muscle repair
P2860
Q21131319-16E10648-067F-4F70-AC97-84A2569178E6Q26747239-CA68B334-BE4B-461D-B91A-FF67D8C8F8D7Q26752770-15A501A8-EAED-4282-85D1-9F3FD89A4639Q26825719-52AA9B19-4A86-4577-A04C-F607DDF03D55Q27012548-3478ECC0-E112-4D8D-A021-C4371ECD8C85Q27305027-6A9D7D29-8860-4A24-8677-CC4170750A3FQ28078887-BA9989AF-2827-4A11-9C27-B42D4EE4E21BQ28078894-2B80FDA6-7C09-46FC-9EDE-C0AAC80F8A8DQ28084614-54CE2D52-068B-4610-9685-E7468BBE6190Q28507874-9A2C7771-BDC1-48F4-A99F-584AA59E5603Q30582181-446DEBE8-28B5-45BF-9DD4-C47720B5C1DAQ30612011-1FBBEC73-A363-4626-87B4-E38037DDF7A4Q33588122-699B8612-11E7-4C06-BA01-D78FA435D2BDQ33589771-4AE8B0CE-1532-4757-8CE4-F6887647C15BQ33593168-46BF445C-4129-441A-B079-91ED508BA4D6Q33616461-9A2B2C61-AA80-4C58-8DCC-68AD44FFE416Q33806427-61F9DDA7-8F7B-4D23-807E-A4DCBE175095Q33924128-96952335-281C-49C2-8E99-7B5F4E980C22Q34017116-AB29DEBE-8EB4-49D0-990F-53C8F4A1D6E5Q34140133-485AE27E-0774-4DEC-B51C-EEBAE429EE95Q34181742-59341DE1-7681-4CBA-9370-8206E4CBEED2Q34248966-E16831B5-165F-45DA-9081-94E9811818CEQ34391396-328C89F5-B5CE-444E-96E7-5B79C391F338Q34404503-1848DE40-F168-435B-9563-F6D0E9331E31Q34433427-8682E0F4-C1FF-44CA-8EEA-FFF293EC76F1Q34808008-CBEB493A-9128-41A2-8FEB-6B0F870D43B2Q34997519-60D6F726-4C0C-44BF-99D2-F890E9508912Q35105101-C4E8F15C-FF5A-476E-867B-32F3C311F201Q35212612-BA0B0483-2741-4E4F-BE68-DC78EA9390B2Q35547307-66F83268-87D7-48CC-A278-DC5E06803D4BQ35555408-27A6DB32-A631-46A2-8965-61A037BB9BEBQ35672032-78F246A2-EDB9-436F-ACC1-BF492ACEEB20Q35767940-41D25293-5ABF-40BF-BD29-91E79FD349F1Q35859283-DF0B8846-4C04-47DE-9DB4-BF5DD5C200D3Q36118256-9476576E-B764-4F77-809F-3AFB6BDA1DCDQ36118320-02941A3D-4C98-40B8-A94F-15651EA12A2AQ36118440-21D02169-38F4-40D2-87AE-0E853F38A4FDQ36118993-9BDF62E4-AB15-496D-938D-F30A19BD3E2DQ36221133-8A92C8D3-F577-4F45-8C3B-BE3EA7FB3B82Q36379442-A3D5B05E-4D37-4A97-A2DF-6B46E290FE88
P2860
The p38alpha/beta MAPK functions as a molecular switch to activate the quiescent satellite cell.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
The p38alpha/beta MAPK functio ...... the quiescent satellite cell.
@ast
The p38alpha/beta MAPK functio ...... the quiescent satellite cell.
@en
type
label
The p38alpha/beta MAPK functio ...... the quiescent satellite cell.
@ast
The p38alpha/beta MAPK functio ...... the quiescent satellite cell.
@en
prefLabel
The p38alpha/beta MAPK functio ...... the quiescent satellite cell.
@ast
The p38alpha/beta MAPK functio ...... the quiescent satellite cell.
@en
P2093
P2860
P356
P1476
The p38alpha/beta MAPK functio ...... the quiescent satellite cell.
@en
P2093
Bradley B Olwin
Dawn D W Cornelison
Heather M Stanley
Kristina J Tyner
Lisa Nibarger
Nathan C Jones
Yuri V Fedorov
P2860
P304
P356
10.1083/JCB.200408066
P407
P577
2005-04-01T00:00:00Z