Pages that link to "Q48158253"
Jump to navigation
Jump to search
The following pages link to Distinct epigenetic programs regulate cardiac myocyte development and disease in the human heart in vivo. (Q48158253):
Displaying 32 items.
- Basic research: Epigenetic map of heart development and disease (Q49985556) (← links)
- Epigenomes in Cardiovascular Disease. (Q55098768) (← links)
- Human-Induced Pluripotent Stem Cell Technology and Cardiomyocyte Generation: Progress and Clinical Applications. (Q55499094) (← links)
- Cardiac ageing: extrinsic and intrinsic factors in cellular renewal and senescence (Q57165494) (← links)
- The developmental transcriptome of the human heart (Q58421188) (← links)
- ACE-inhibition induces a cardioprotective transcriptional response in the metabolic syndrome heart (Q58577455) (← links)
- Epigenomic regulation of heart failure: integrating histone marks, long noncoding RNAs, and chromatin architecture (Q58706055) (← links)
- Dynamics of genome reorganization during human cardiogenesis reveal an RBM20-dependent splicing factory (Q64077322) (← links)
- PAN-INTACT enables direct isolation of lineage-specific nuclei from fibrous tissues (Q64086734) (← links)
- Cardiac interstitial tetraploid cells can escape replicative senescence in rodents but not large mammals. (Q64964326) (← links)
- Nutriepigenetics and cardiovascular disease (Q88919479) (← links)
- Decoding the Heart through Next Generation Sequencing Approaches (Q89031668) (← links)
- Histones and heart failure in diabetes (Q89207832) (← links)
- Cardiomyocyte maturation: advances in knowledge and implications for regenerative medicine (Q89519147) (← links)
- Direct Comparison of Mononucleated and Binucleated Cardiomyocytes Reveals Molecular Mechanisms Underlying Distinct Proliferative Competencies (Q90044677) (← links)
- Thanatogenomic Investigation of the Hydroxymethylome and Mitochondrial Genome of Cadaveric Cardiomyocytes: Proposal for a Proof-of-Concept Study (Q90062528) (← links)
- Tet inactivation disrupts YY1 binding and long-range chromatin interactions during embryonic heart development (Q90197014) (← links)
- Four Dimensions of the Cardiac Myocyte Epigenome: from Fetal to Adult Heart (Q90472881) (← links)
- Epigenetic Regulation of Cardiac Development and Disease through DNA Methylation (Q90599894) (← links)
- Regulation of cardiomyocyte maturation during critical perinatal window (Q90670805) (← links)
- Epigenetics, cardiovascular disease, and cellular reprogramming (Q91251201) (← links)
- Cardiac Reprogramming Factors Synergistically Activate Genome-wide Cardiogenic Stage-Specific Enhancers (Q91959503) (← links)
- Changes in m6A RNA methylation contribute to heart failure progression by modulating translation (Q92065832) (← links)
- Epigenetics in Cardiac Hypertrophy and Heart Failure (Q92465956) (← links)
- In situ nuclear DNA methylation in dilated cardiomyopathy: an endomyocardial biopsy study (Q92873356) (← links)
- Epigenetic therapies in heart failure (Q93129318) (← links)
- An improved two-step method for extraction and purification of primary cardiomyocytes from neonatal mice (Q96339015) (← links)
- H3K27ac acetylome signatures reveal the epigenomic reorganization in remodeled non-failing human hearts (Q97568369) (← links)
- Human embryonic stem cells as an in vitro model for studying developmental origins of type 2 diabetes (Q99579311) (← links)
- Network integration and modelling of dynamic drug responses at multi-omics levels (Q100635607) (← links)
- Diabetes changes gene expression but not DNA methylation in cardiac cells (Q102071912) (← links)
- Proximity to injury, but neither number of nuclei nor ploidy define pathological adaptation and plasticity in cardiomyocytes (Q104130394) (← links)