2017
DOI: 10.1186/s12864-017-4236-y
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Temporally distinct transcriptional regulation of myocyte dedifferentiation and Myofiber growth during muscle regeneration

Abstract: BackgroundTissue regeneration requires a series of steps, beginning with generation of the necessary cell mass, followed by cell migration into damaged area, and ending with differentiation and integration with surrounding tissues. Temporal regulation of these steps lies at the heart of the regenerative process, yet its basis is not well understood. The ability of zebrafish to dedifferentiate mature “post-mitotic” myocytes into proliferating myoblasts that in turn regenerate lost muscle tissue provides an oppo… Show more

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Cited by 10 publications
(16 citation statements)
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“…In zebrafish, regeneration of extraocular muscles utilizes the dedifferentiation and proliferation of extant myocytes, which then differentiate into muscle cells [7,13,14,[48][49][50]. An RNAseq screen previously showed the upregulation of midkine-a during regeneration of extraocular muscle [14].…”
Section: In Midkine-a Mutants Proliferation and Regeneration Of Extrmentioning
confidence: 99%
See 2 more Smart Citations
“…In zebrafish, regeneration of extraocular muscles utilizes the dedifferentiation and proliferation of extant myocytes, which then differentiate into muscle cells [7,13,14,[48][49][50]. An RNAseq screen previously showed the upregulation of midkine-a during regeneration of extraocular muscle [14].…”
Section: In Midkine-a Mutants Proliferation and Regeneration Of Extrmentioning
confidence: 99%
“…The regenerative blastema can originate from resident, tissue-specific stem cells or extant mature cells that are reprogrammed into a dedifferentiated state [11,12]. Following ablation of muscle, myocytes dedifferentiate and enter the cell cycle to proliferate and regenerate functional tissue [7,13,14,15].…”
Section: Introductionmentioning
confidence: 99%
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“…Our lab has discovered that in adult zebrafish, extraocular muscles (EOMs)–a subtype of skeletal muscle–can undergo de novo regeneration that is driven by myocyte reprogramming and dedifferentiation [ 6 ]. We have further characterized the early steps of EOM reprogramming, revealing important roles for epigenetic alterations, FGF signaling and autophagy in regulating proliferation by reprogrammed myoblasts [ 7 9 ].…”
Section: Introductionmentioning
confidence: 99%
“…Myoblasts are skeletal mononuclear myocytes that are committed to the myogenic lineage but also are capable of proliferation in cell culture. During differentiation, myoblasts elongate and fuse with each other forming multinucleated, terminally differentiated myocytes, capable of contraction [2,3]. Induction of myocyte differentiation is initiated by the successive activation of signaling pathways that cooperate in the inhibition of proliferation and in the induction of differentiation via expression of several muscle differentiation-specific transcription factors, such as the basic-helix-loop muscle regulatory Myf5 protein, which is expressed first in the developing embryo, followed by MyoD, myogenin and MRF5 [4,5].…”
Section: Introductionmentioning
confidence: 99%