Pattern of Pax7 expression during myogenesis in the posthatch chicken establishes a model for satellite cell differentiation and renewal.
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Meeting the meat: delineating the molecular machinery of muscle developmentMeat Science and Muscle Biology Symposium: stem cell niche and postnatal muscle growthTissue-specific stem cells: lessons from the skeletal muscle satellite cellStem cells for skeletal muscle regeneration: therapeutic potential and roadblocksReduced satellite cell numbers and myogenic capacity in aging can be alleviated by endurance exerciseMolecular nutrition: Interaction of nutrients, gene regulations and performancesInduction of periostin-like factor and periostin in forearm muscle, tendon, and nerve in an animal model of work-related musculoskeletal disorderPPARĪ“ regulates satellite cell proliferation and skeletal muscle regenerationmiR-206 and -486 induce myoblast differentiation by downregulating Pax7BMP induction of cardiogenesis in P19 cells requires prior cell-cell interaction(s)Light accelerates morphogenesis and acquisition of interlimb stepping in chick embryos.Integrated functions of Pax3 and Pax7 in the regulation of proliferation, cell size and myogenic differentiation.A distinct profile of myogenic regulatory factor detection within Pax7+ cells at S phase supports a unique role of Myf5 during posthatch chicken myogenesis.PAX3/7 expression coincides with MyoD during chronic skeletal muscle overloadAbsence of CD34 on murine skeletal muscle satellite cells marks a reversible state of activation during acute injury.Response of turkey muscle satellite cells to thermal challenge. I. transcriptome effects in proliferating cells.Proteomic Analysis of Chicken Skeletal Muscle during Embryonic Development.Muscle wasting and impaired myogenesis in tumor bearing mice are prevented by ERK inhibition.Retention of Pax3 expression in satellite cells of muscle spindles.Dlk1 is necessary for proper skeletal muscle development and regeneration.The depletion of skeletal muscle satellite cells with age is concomitant with reduced capacity of single progenitors to produce reserve progeny.Protein kinase D2 is an essential regulator of murine myoblast differentiation.Satellite cells and the muscle stem cell nicheNotch signaling deficiency underlies age-dependent depletion of satellite cells in muscular dystrophy.The muscle satellite cell at 50: the formative years.In vitro indeterminate teleost myogenesis appears to be dependent on Pax3Activation of Pax7-positive cells in a non-contractile tissue contributes to regeneration of myogenic tissues in the electric fish S. macrurus.Somitic origin of limb muscle satellite and side population cellsA simplified but robust method for the isolation of avian and mammalian muscle satellite cellsSkeletal muscle satellite cells: mediators of muscle growth during development and implications for developmental disorders.Extraocular muscle satellite cells are high performance myo-engines retaining efficient regenerative capacity in dystrophin deficiency.Long-duration muscle dedifferentiation during limb regeneration in axolotls.Evolutionary history and epigenetic regulation of the three paralogous pax7 genes in rainbow trout.Time- and dose-dependent effects of total-body ionizing radiation on muscle stem cells.Myogenic-specific ablation of Fgfr1 impairs FGF2-mediated proliferation of satellite cells at the myofiber niche but does not abolish the capacity for muscle regenerationDefining the transcriptional signature of skeletal muscle stem cells.Reflections on lineage potential of skeletal muscle satellite cells: do they sometimes go MAD?The skeletal muscle satellite cell: still young and fascinating at 50A Modeling Insight into Adipose-Derived Stem Cell Myogenesis.Diminished satellite cells and elevated adipogenic gene expression in muscle as caused by ovariectomy are averted by low-magnitude mechanical signals.
P2860
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P2860
Pattern of Pax7 expression during myogenesis in the posthatch chicken establishes a model for satellite cell differentiation and renewal.
description
2004 nĆ® lÅ«n-bĆ»n
@nan
2004 Õ©ÕøÖÕ”ÕÆÕ”Õ¶Õ« ÕÕøÕµÕ„Õ“Õ¢Õ„ÖÕ«Õ¶ Õ°ÖÕ”ÕæÕ”ÖÕ”ÕÆÕøÖÕ”Õ® Õ£Õ«ÕæÕ”ÕÆÕ”Õ¶ ÕµÖ
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@hyw
2004 Õ©Õ¾Õ”ÕÆÕ”Õ¶Õ« Õ¶ÕøÕµÕ„Õ“Õ¢Õ„ÖÕ«Õ¶ Õ°ÖÕ”ÕæÕ”ÖÕ”ÕÆÕ¾Õ”Õ® Õ£Õ«ÕæÕ”ÕÆÕ”Õ¶ Õ°ÕøÕ¤Õ¾Õ”Õ®
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2004幓ć®č«ę
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2004幓č«ę
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2004幓č«ę
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2004幓č«ę
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2004幓č«ę
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2004幓č«ę
@zh-tw
2004幓č®ŗę
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name
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@ast
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@en
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@nl
type
label
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@ast
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@en
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@nl
prefLabel
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@ast
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@en
Pattern of Pax7 expression dur ...... l differentiation and renewal.
@nl
P2093
P356
P1476
Pattern of Pax7 expression dur ...... ll differentiation and renewal
@en
P2093
Benjamin W C Rosser
Israel Rozenboim
Mohammed Z Allouh
Monika Wleklinski-Lee
Orna Halevy
Ram Reshef
Yogev Piestun
Zipora Yablonka-Reuveni
P304
P356
10.1002/DVDY.20151
P577
2004-11-01T00:00:00Z