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Dedifferentiation, Transdifferentiation, and Proliferation: Mechanisms Underlying Cardiac Muscle Regeneration in Zebrafish
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title
Dedifferentiation, Transdifferentiation, and Proliferation: Mechanisms Underlying Cardiac Muscle Regeneration in Zebrafish
(English)
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main subject
Danio rerio
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author name string
Kazu Kikuchi
series ordinal
1
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language of work or name
English
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publication date
2015
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published in
Current pathobiology reports
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volume
3
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issue
1
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page(s)
81-88
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PubMed
copyright license
Creative Commons Attribution 4.0 International
start time
30 January 2015
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April 2022 Public Data File from Crossref
copyright status
copyrighted
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cites work
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miR-1/133a clusters cooperatively specify the cardiomyogenic lineage by adjustment of myocardin levels during embryonic heart development
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Heart regeneration
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Evidence for cardiomyocyte renewal in humans
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Transient regenerative potential of the neonatal mouse heart
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Cardiomyocytes derived from human embryonic stem cells in pro-survival factors enhance function of infarcted rat hearts
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Heart regeneration in zebrafish
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Hydrogen peroxide primes heart regeneration with a derepression mechanism
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Preparing the ground for tissue regeneration: from mechanism to therapy
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Hand2 elevates cardiomyocyte production during zebrafish heart development and regeneration.
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A proliferative burst during preadolescence establishes the final cardiomyocyte number.
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Human embryonic-stem-cell-derived cardiomyocytes regenerate non-human primate hearts.
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The oxygen-rich postnatal environment induces cardiomyocyte cell-cycle arrest through DNA damage response
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Notch signaling regulates cardiomyocyte proliferation during zebrafish heart regeneration.
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Translational profiling of cardiomyocytes identifies an early Jak1/Stat3 injury response required for zebrafish heart regeneration
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Igf Signaling is Required for Cardiomyocyte Proliferation during Zebrafish Heart Development and Regeneration
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An injury-responsive gata4 program shapes the zebrafish cardiac ventricle
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In vivo monitoring of cardiomyocyte proliferation to identify chemical modifiers of heart regeneration
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Regulation of zebrafish heart regeneration by miR-133
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Regeneration of cryoinjury induced necrotic heart lesions in zebrafish is associated with epicardial activation and cardiomyocyte proliferation
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The zebrafish heart regenerates after cryoinjury-induced myocardial infarction.
1 reference
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PubMed Central
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PubMed Central
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29 September 2017
Zebrafish heart regeneration occurs by cardiomyocyte dedifferentiation and proliferation
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PubMed Central
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Primary contribution to zebrafish heart regeneration by gata4(+) cardiomyocytes.
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PubMed Central
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PubMed Central
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29 September 2017
microRNA-133a regulates cardiomyocyte proliferation and suppresses smooth muscle gene expression in the heart
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PubMed Central
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29 September 2017
Comparative aspects of animal regeneration
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29 September 2017
Human cardiac stem cells
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PubMed Central
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29 September 2017
Activation of Notch signaling pathway precedes heart regeneration in zebrafish
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29 September 2017
Differentiation of human embryonic stem cells to cardiomyocytes: role of coculture with visceral endoderm-like cells
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29 September 2017
In vivo activation of a conserved microRNA program induces mammalian heart regeneration
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2 June 2018
In vivo cardiac reprogramming contributes to zebrafish heart regeneration
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2 June 2018
Heart repair by reprogramming non-myocytes with cardiac transcription factors
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2 June 2018
p38α MAPK regulates myocardial regeneration in zebrafish
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2 June 2018
Retinoic acid production by endocardium and epicardium is an injury response essential for zebrafish heart regeneration
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2 June 2018
Extensive scar formation and regression during heart regeneration after cryoinjury in zebrafish.
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21 January 2018
A dynamic epicardial injury response supports progenitor cell activity during zebrafish heart regeneration.
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21 January 2018
Sequential myofibrillar breakdown accompanies mitotic division of mammalian cardiomyocytes
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21 January 2018
Acute inflammation initiates the regenerative response in the adult zebrafish brain.
1 reference
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21 January 2018
The regenerative capacity of the zebrafish heart is dependent on TGF signaling
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PubMed
reference URL
https://pubmed.ncbi.nlm.nih.gov/25722956
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12 December 2020
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Identifiers
DOI
10.1007/S40139-015-0063-5
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Dimensions Publication ID
1019627272
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PMC publication ID
4333235
1 reference
stated in
PubMed
PubMed publication ID
25722956
1 reference
stated in
PubMed
ResearchGate publication ID
273515042
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