Abstract
Sequencing of Congenital Heart Disease (CHD) patients identified variants in many histone modifying genes, suggesting that histone modification plays important roles in heart development and disease. However, how these histone modifying genes perform their epigenetic regulation function during heart development remain elusive, and whether these novel genetic variants identified from CHD patients are causal remain unclear. We found that most histone modifying genes are highly conserved from Drosophila to humans, and many are expressed in the developing heart in both systems. Using a high-throughput functional validation system that we generated for providing the “gene-level” disease association for candidate CHD genes, we screened lots of histone-modifying genes and identified many that are required for heart development in Drosophila. Among them, genes involved in histone H3K4 mono- and dimethylation are particularly important for heart development and appear to regulate evolutionarily conserved targets during heart development from Drosophila to mammals. We also generated Drosophila models for CHD patient-derived variants in histone-modifying genes to study how these variants affect the function of the human genes in the context of the fly heart development, to provide the “variant-level” evidence for their causal association with CHD.
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