E. Javier Hernandez scite author profile

The genetic architecture of sporadic congenital heart disease (CHD) is characterized by enrichment in damaging de novo variants in chromatin-modifying genes. To test the hypothesis that gene pathways contributing to de novo forms of CHD are distinct from those for recessive forms, we analyze 2391 whole-exome trios from the Pediatric Cardiac Genomics Consortium. We deploy a permutation-based gene-burden analysis to identify damaging recessive and compound heterozygous genotypes and disease genes, controlling for confounding effects, such as background mutation rate and ancestry. Cilia-related genes are significantly enriched for damaging rare recessive genotypes, but comparatively depleted for de novo variants. The opposite trend is observed for chromatin-modifying genes. Other cardiac developmental gene classes have less stratification by mode of inheritance than cilia and chromatin-modifying gene classes. Our analyses reveal dominant and recessive CHD are associated with distinct gene functions, with cilia-related genes providing a reservoir of rare segregating variation leading to CHD.

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Causal and Candidate Gene Variants in a Large Cohort of Women with Primary Ovarian Insufficiency

Gorsi

Hernandez

Moore

et al. 2021

Preprint

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A genetic etiology accounts for unexplained primary ovarian insufficiency (POI; amenorrhea with an elevated FSH level). Subjects with POI (n=291) and controls recruited for health in old age or 1000 Genomes (n=233) underwent whole exome or whole genome sequencing. Data were analyzed using a rare variant scoring method and a Bayes factor-based framework for identifying genes harboring pathogenic variants. Candidate heterozygous variants were identified in known genes and genes with functional evidence. Gene sets with increased burden of deleterious alleles included the categories transcription and translation, DNA damage and repair, meiosis and cell division. Variants were found in novel genes from the enhanced categories. Functional evidence supported 7 new risk genes for POI (USP36, VCP, WDR33, PIWIL3, NPM2, LLGL1 and BOD1L1). Aggregating clinical data and genetic risk with a categorical approach may expand the genetic architecture of heterozygous rare gene variants causing risk for POI.

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E. Javier Hernandez

De novo and recessive forms of congenital heart disease have distinct genetic and phenotypic landscapes

Causal and Candidate Gene Variants in a Large Cohort of Women with Primary Ovarian Insufficiency

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