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Fast revascularization of the injured area is essential to support zebrafish heart regeneration
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Identification of targets of Vegfc signaling during cardiac regeneration in zebrafish
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Next Generation Sequencing Facilitates Quantitative Analysis of Wild Type and Ccn2a-/- cardiac ventricular Transcriptomes
Tp53 suppression promotes cardiomyocyte proliferation during zebrafish heart regeneration
Single epicardial cell transcriptome sequencing identifies Caveolin-1 as an essential factor in zebrafish heart regeneration
Differential gene expression analysis of 4days post fertilization (dpf) wildtype and flt1ka601zebrafish mutants to identify venous sprouting associated genes
hapln1 defines an epicardial cell subpopulation that establishes cardiogenic hotspots during heart morphogenesis and regeneration
siRNA knockdown of neonatal rat cardiac myocytes and fibroblasts
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RNAseq of regenerating yap mutant zebrafish hearts
Cardiomyocyte heterogeneity in zebrafish development and regeneration
runx1 controls zebrafish heart regeneration by promoting scar deposition as well as inhibiting myocardial proliferation and survival
AP-1 Regulates Chromatin Accessibility to Promote Sarcomere Disassembly and Cardiomyocyte Protrusion during Zebrafish Heart Regeneration
MicroRNA expression profiling of zebrafish heart regeneration
Injury-activated endocardium plays structural and signalling roles in zebrafish heart regeneration
Single-cell analysis uncovers that metabolic reprogramming is essential for cardiomyocyte proliferation in the regenerating heart.
Genome–wide transcriptional profiling with spatial resolution identifies Bone Morphogenetic Protein signaling as essential regulator of zebrafish cardiomyocyte regeneration.
H3K27me3-mediated silencing of structural genes is required for zebrafish heart regeneration
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H3K27me3 deposition over sarcomeric and cytoskeletal promoters is required for cardiomyocyte cytokinesis and wound invasion during zebrafish heart regeneration [RNA-seq]
H3K27me3 deposition over sarcomeric and cytoskeletal promoters is required for cardiomyocyte cytokinesis and wound invasion during zebrafish heart regeneration [ChIP-seq]
Pre-existent adult sox10+ cardiomyocytes contribute to myocardial regeneration in the zebrafish
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