Project description:Genetic study of vascular anomalies

Project description:Segmental overgrowth/vascular anomalies/dermatologic disorders

Project description:Segmental overgrowth/vascular anomalies/dermatologic disorders

Project description:Endothelial mutagenesis screen identifies genetic risk factors in the development vascular anomalies

Project description:Kids First: Genetic Spectrum of Vascular Anomalies, Overgrowth and Structural Birth Defects

Project description:Endothelial mutagenesis screen identifies genetic risk factors in the development vascular anomalies [adipose]

Project description:Endothelial mutagenesis screen identifies genetic risk factors in the development vascular anomalies [muscle]

Project description:Purpose: Mutations in several genetic loci lead to cardiac anomalies, with mutations in transcription factor NKX2-5 gene being one of the largest mutations known. Gestational hypoxia, such as seen in high-altitude pregnancy, has been known to affect cardiac development, and this paper aims to uncover information about the underlying mechanisms of this phenomena. Methods: Wild-type female mice were mated with Nkx2-5 mutant males, to produce offsprings. The pregnant females were then separated into two groups, one left in normal air and one breathing hypoxic, 14% oxygen, air from gestation day 10.5 to 12.5. Hearts were dissected from E12.5 embryos, subjected to RNA purification followed by RNA-seq. Wild-hypoxia and mutant-normoxia were compared to control wild-normoxia. Conclusions: The results of our study provide insights into a common molecular mechanism underlying non-genetic/epigenetic and genetic cardiac anomalies.

Project description:Heart and Vascular Health Study

Project description:Mechanism sharing between genetic and gestational hypoxia-induced cardiac anomalies