Networked cardiac control, revealed through analysis of extended baseline-state multi-channel recordings, differentiates heart failure and normal regimes highlighting the promise of peripheral neurally based clinical interventions.

Cardiac-specific neurons residing in stellate ganglia comprised of three subsets of neurons based upon their transcriptomic and neurochemical properties and modulates cardiac sympathetic control.

ATAC-seq, CRISPR/Cas9 mutagenesis, reporter and gene expression assays revealed dynamic chromatin accessibility profiles governing differential gene expression during heart vs. pharyngeal muscle fate choices in the powerful chordate model Ciona.

New views on the relevance of bone morphogenetic protein signalling fine tuning in the cardiac neural crest cells for the heart outflow tract septation and the formation of the great arteries.

Free optical steering of spiral waves by attraction-based dragging of their cores in optogenetically modified cardiac tissue.

Combined evidence of human genetics, in vitro cardiomyocyte differentiation, and mouse model indicates that SORBS2 is a regulator of second heart field development and its deficiency causes seemingly opposite atrial septal defects.

Transcription-factor-dependent noncoding RNA transcription illuminates components of a transcription-factor-dependent gene regulatory network that includes enhancer-associated long noncoding RNAs and is necessary for cardiac rhythm.

The Apelin receptor acts as a rheostat to ensure that the proper levels of Nodal signaling are achieved for proper cell fate specification at the onset of gastrulation, in particular for cardiac progenitor development.

The lncRNA pCharme controls the expression of cardiomyocyte maturation genes and heart development by orchestrating the formation of MATR3-enriched nuclear condensates.

Two niches contribute to the control of Drosophila blood cell homeostasis through their differential regulation of hematopoietic progenitors.