U.S. flag

An official website of the United States government

Format
Items per page
Sort by

Send to:

Choose Destination

Links from GEO DataSets

Items: 20

1.

Fast revascularization of the injured area is essential to support zebrafish heart regeneration

(Submitter supplied) To better understand the possible mechanisms that vegfaa mutants display to compensate for the lack of vegfaa, we performed transcriptomic profiling of vegfaa+/+ and vegfaa-/- ventricles. Total RNA was isolated from hearts extracted from vegfaa+/+ and vegfaa-/- fish (8 months old) pooling 4 hearts per sample.
Organism:
Danio rerio
Type:
Expression profiling by array
Platform:
GPL20686
2 Samples
Download data: TXT
Series
Accession:
GSE78945
ID:
200078945
2.

Identification of targets of Vegfc signaling during cardiac regeneration in zebrafish

(Submitter supplied) Purpose:to identify with transcriptomic analysis, gene targets of Vegfc signaling during cardiac regeneration in zebrafish. Results: We were able to identify several differential expressed genes, many of which encode for immune related genes, as well as ECM components.
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL20828
4 Samples
Download data: TXT
Series
Accession:
GSE168175
ID:
200168175
3.

Next Generation Sequencing Facilitates Quantitative Analysis of Wild Type and Ccn2a-/- cardiac ventricular Transcriptomes

(Submitter supplied) Purpose: The goal of this study is to compare transcriptome level between 4 dpci wild-type and ccn2a-/- zebrafish cardiac ventricle. Methods: 4-days-post cryoinjured cardiac ventricular mRNA profiles of wild-type (WT) and cellular communication network factor 2a mutant (ccn2a−/−) zebrafish were generated by deep sequencing, in duplicate. Results: 7 genes showed differential expression between the WT and ccn2a−/− heart, with a fold change ≥1.5 and p value <0.05. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL20828
4 Samples
Download data: TXT
Series
Accession:
GSE164491
ID:
200164491
4.

Tp53 suppression promotes cardiomyocyte proliferation during zebrafish heart regeneration

(Submitter supplied) Transcriptome sequencing of uninjured and regenerating (7dpi) tp53M214K and tp53WT ventricles.
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL24776
12 Samples
Download data: TXT
Series
Accession:
GSE146859
ID:
200146859
5.

Single epicardial cell transcriptome sequencing identifies Caveolin-1 as an essential factor in zebrafish heart regeneration

(Submitter supplied) By contrast with mammals, adult zebrafish have a high capacity to regenerate damaged or lost myocardium through proliferation of spared cardiomyocytes. The epicardial sheet covering the heart is activated by injury and aids muscle regeneration through paracrine effects and as a multipotent cell source, and has received recent attention as a target in cardiac repair strategies. While it is recognized that epicardium is required for muscle regeneration and itself has high regenerative potential, the extent of cellular heterogeneity within epicardial tissue is largely unexplored. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL14875
40 Samples
Download data: TXT
Series
Accession:
GSE75583
ID:
200075583
6.

Differential gene expression analysis of 4days post fertilization (dpf) wildtype and flt1ka601zebrafish mutants to identify venous sprouting associated genes

(Submitter supplied) Formation of organ-specific vasculatures requires cross-talk between developing tissue and specialized endothelial cells. Here we show how developing zebrafish spinal cord neurons coordinate vessel growth through balancing of neuron-derived Vegfaa, with neuronal sFlt1 restricting Vegfaa-Kdrl mediated angiogenesis at the neurovascular interface. Neuron-specific loss of flt1 or increased neuronal vegfaa expression promotes angiogenesis and peri-neural tube vascular network formation. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL14875
6 Samples
Download data: CSV, TXT
Series
Accession:
GSE89350
ID:
200089350
7.

hapln1 defines an epicardial cell subpopulation that establishes cardiogenic hotspots during heart morphogenesis and regeneration

(Submitter supplied) The epicardium, a thin mesothelial tissue layer that encompasses the heart, is a dynamic structure that is essential for cardiac regeneration in species with elevated regenerative capacity like zebrafish. To dissect epicardial cell states and associated pro-regenerative functions, we performed single-cell RNA-sequencing and identified 7 epicardial cell clusters in adult zebrafish, with 3 of these clusters enhanced during regeneration. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL25922
2 Samples
Download data: MTX, TSV
Series
Accession:
GSE172511
ID:
200172511
8.

siRNA knockdown of neonatal rat cardiac myocytes and fibroblasts

(Submitter supplied) Primary neonatal rat cardiac myocytes or fibroblasts were isolated and subjected to siRNA mediated Yap knockdown
Organism:
Rattus norvegicus
Type:
Expression profiling by high throughput sequencing
Platform:
GPL24782
12 Samples
Download data: XLSX
Series
Accession:
GSE112464
ID:
200112464
9.

RNAseq of regenerating yap mutant zebrafish hearts

(Submitter supplied) A Yap knockout zebrafish line was used to observe how loss of Yap affects cardiac regeneration.
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL24776
12 Samples
Download data: XLSX
Series
Accession:
GSE112452
ID:
200112452
10.

Cardiomyocyte heterogeneity in zebrafish development and regeneration

(Submitter supplied) Contrary to adult mammals, zebrafish are able to regenerate their heart after cardiac injury. This regenerative response relies, in part, on the endogenous ability of cardiomyocytes (CMs) to dedifferentiate and proliferate to replenish the lost muscle. However, CM heterogeneity and population dynamics during development and regeneration remain poorly understood. Through comparative transcriptomic analyses of the developing and adult zebrafish heart, we identified tnnc2 and tnni4b.3 expression as markers for CMs at early and late developmental stages, respectively. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL20828
4 Samples
Download data: TXT
Series
Accession:
GSE157662
ID:
200157662
11.

­runx1 controls zebrafish heart regeneration by promoting scar deposition as well as inhibiting myocardial proliferation and survival

(Submitter supplied) Runx1 is a transcription factor that plays a key role in determining the proliferative and differential state of multiple cell types, during both development and adulthood. Here, we report how runx1 is specifically upregulated at the injury site during zebrafish heart regeneration, but unexpectedly, absence of runx1 results in enhanced regeneration. Using single cell sequencing, we found that the wild-type injury site consists of Runx1-positive endocardial cells and thrombocytes that express smooth muscle and collagen genes without differentiating into myofibroblasts. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL18413
3 Samples
Download data: H5
Series
Accession:
GSE138181
ID:
200138181
12.

AP-1 Regulates Chromatin Accessibility to Promote Sarcomere Disassembly and Cardiomyocyte Protrusion during Zebrafish Heart Regeneration

(Submitter supplied) The zebrafish has emerged as a powerful model to study cardiac regeneration; however, the mechanisms by which cardiomyocytes respond to damage by disassembling sarcomeres, proliferating, and repopulating the injured area remain unclear. Here, we show that AP-1 transcription factors play an essential role in regulating the cardiomyocyte response. Using ATAC-Seq, we first find that the cardiomyocyte chromatin accessibility landscape is dynamic following cryoinjury, and that AP-1 motifs are the most highly enriched in regions that gain accessibility during regeneration. more...
Organism:
Danio rerio
Type:
Genome binding/occupancy profiling by high throughput sequencing
Platform:
GPL20828
14 Samples
Download data: TXT
Series
Accession:
GSE130940
ID:
200130940
13.

MicroRNA expression profiling of zebrafish heart regeneration

(Submitter supplied) Cardiovascular disease is the leading cause of morbidity and mortality in the Western world due to a limited regenerative capacity. In lieu of new muscle synthesis, the human heart replaces necrotic tissue with deposition of a non-contractile scar. In contrast, the adult zebrafish is endowed with a remarkable regenerative capacity, capable of de novo cardiomyocyte (CM) creation and scar tissue resolution when challenged with an acute injury. more...
Organism:
Danio rerio
Type:
Non-coding RNA profiling by array
Platform:
GPL21083
6 Samples
Download data: TXT
Series
Accession:
GSE74494
ID:
200074494
14.

Injury-activated endocardium plays structural and signalling roles in zebrafish heart regeneration

(Submitter supplied) The zebrafish heart remarkably regenerates after a severe ventricular damage followed by inflammation, fibrotic tissue deposition and removal concomitant with cardiac muscle replacement. We have investigated the role of the endocardium in this regeneration process. 3D-whole mount imaging in injured hearts revealed that GFP-labelled endocardial cells in ET33mi-60A transgenic fish become rapidly activated and highly proliferative at 3 days post cryoinjury (dpci). more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL15583
6 Samples
Download data: CSV
Series
Accession:
GSE68650
ID:
200068650
15.

Single-cell analysis uncovers that metabolic reprogramming is essential for cardiomyocyte proliferation in the regenerating heart.

(Submitter supplied) While the heart regenerates poorly in mammals, efficient heart regeneration occurs in certain amphibian and fish species. Zebrafish has been used extensively to study heart regeneration, resulting in a model in which preexisting cardiomyocytes dedifferentiate and reinitiate proliferation to replace the lost myocardium. However, there is limited knowledge about the cellular processes that occur in this rare population of proliferating cardiomyocytes during heart regeneration. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL20828
4 Samples
Download data: CSV, TSV
Series
Accession:
GSE139218
ID:
200139218
16.

Genome–wide transcriptional profiling with spatial resolution identifies Bone Morphogenetic Protein signaling as essential regulator of zebrafish cardiomyocyte regeneration.

(Submitter supplied) In contrast to mammals, zebrafish regenerate heart injuries via proliferation of cardiomyocytes located at the wound border. Here, we show that tomo-seq can be used to identify whole-genome transcriptional profiles of the injury zone, the border zone and the healthy myocardium. Interestingly, the border zone is characterized by the re-expression of embryonic cardiac genes that are also activated after myocardial infarction in mouse and human, including targets of Bone Morphogenetic Protein (BMP) signaling. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL20828
2 Samples
Download data: CSV
Series
Accession:
GSE74652
ID:
200074652
17.

H3K27me3-mediated silencing of structural genes is required for zebrafish heart regeneration

(Submitter supplied) Deciphering the genetic and epigenetic regulation of cardiomyocyte proliferation in organisms capable of robust cardiac renewal represents an attractive inroad towards regenerating the human heart. In the highly regenerative zebrafish heart, cardiomyocytes near the wound edge undergo dramatic changes in gene expression concomitant with sarcomere disassembly, loss of cell-cell adhesion, and detachment from the extracellular matrix (ECM), which leaves them poised to divide and give rise to new muscle cells that colonize the wound. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing; Genome binding/occupancy profiling by high throughput sequencing
Platforms:
GPL20828 GPL14875
19 Samples
Download data: TDF
Series
Accession:
GSE96930
ID:
200096930
18.

H3K27me3 deposition over sarcomeric and cytoskeletal promoters is required for cardiomyocyte cytokinesis and wound invasion during zebrafish heart regeneration [RNA-seq]

(Submitter supplied) We identify the global transcriptional changes that occur between homeostatic and proliferative cardiomyocytes in the zebrafish heart and uncover an essential role for H3K27me3 deposition in facilitating successful myocardial regeneration. Specifically, we learned that cardiomyocyte proliferation is accompanied by downregulation of sarcomeric and cytoskeletal components and upregulation of the polycomb methylase Ezh2. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL14875
6 Samples
Download data: CSV, TDF
Series
Accession:
GSE96929
ID:
200096929
19.

H3K27me3 deposition over sarcomeric and cytoskeletal promoters is required for cardiomyocyte cytokinesis and wound invasion during zebrafish heart regeneration [ChIP-seq]

(Submitter supplied) Deciphering the genetic and epigenetic regulation of injury-induced heart regeneration in organisms capable of robust cardiac renewal represents an attractive inroad towards regenerating the human heart. In the highly regenerative zebrafish heart, cardiomyocytes near the wound edge undergo dramatic gene expression changes concomitant with sarcomere disassembly, loss of cell-cell adhesion, and detachment from the extracellular matrix (ECM), which leaves them poised to divide and give rise to new muscle cells that colonize the wound. more...
Organism:
Danio rerio
Type:
Genome binding/occupancy profiling by high throughput sequencing
Platform:
GPL20828
13 Samples
Download data: CSV, TDF
Series
Accession:
GSE96928
ID:
200096928
20.

Pre-existent adult sox10+ cardiomyocytes contribute to myocardial regeneration in the zebrafish 

(Submitter supplied) During heart regeneration in the zebrafish, fibrotic tissue is replaced by newly formed cardiomyocytes derived from pre-existing ones. It is unclear whether the heart is comprised of several cardiomyocyte populations bearing different capacity to replace lost myocardium. Here, using sox10 genetic fate mapping, we identified a subset of pre-existent cardiomyocytes in the adult zebrafish heart with a distinct gene expression profile that expanded massively after cryoinjury. more...
Organism:
Danio rerio
Type:
Expression profiling by high throughput sequencing
Platform:
GPL23274
25 Samples
Download data: TXT
Series
Accession:
GSE133571
ID:
200133571
Format
Items per page
Sort by

Send to:

Choose Destination

Supplemental Content

db=gds|term=|query=2|qty=3|blobid=MCID_6723c54fb9fadf77dc7a8702|ismultiple=true|min_list=5|max_list=20|def_tree=20|def_list=|def_view=|url=/Taxonomy/backend/subset.cgi?|trace_url=/stat?
   Taxonomic Groups  [List]
Tree placeholder
    Top Organisms  [Tree]

Find related data

Recent activity

Support Center