Abstract
Monoallelic expression (MAE) or extreme allele bias can account for incomplete penetrance, missing heritability and non-Mendelian diseases. In cancer, MAE is associated with shorter patient survival times and higher tumor grade. Prior studies showed that stochastic MAE is caused by stochastic epigenetic silencing, in a gene and tissue-specific manner. Here, we used C. elegans to study stochastic MAE in vivo. We found allele bias/MAE to be widespread within C. elegans tissues, presenting as a continuum from fully biallelic to MAE. We discovered that the presence of introns within alleles robustly decreases MAE. We determined that introns control MAE at distinct loci, in distinct cell types, with distinct promoters, and within distinct coding sequences, using a 5’-intron position-dependent mechanism. Bioinformatic analysis showed human intronless genes are significantly enriched for MAE. Our experimental evidence demonstrates a role for introns in regulating MAE, possibly explaining why some mutations within introns result in disease.
Highlights
Monoallelic expression (MAE) or extreme allele bias can account for incomplete penetrance, missing heritability and non-Mendelian diseases
HSP90 was listed as monoallelically expressed in the monoallelic expression database[43]
If MAE for HSP90 is a conserved phenomenon between worms and humans, we a Selection of Genes and Expression-Permissive Loci myo-3 hsp-90(s), vit-2, hsp-16.2 HSP-90::T2A, MTL-2::T2A
Summary
Monoallelic expression (MAE) or extreme allele bias can account for incomplete penetrance, missing heritability and non-Mendelian diseases. 1234567890():,; Monoallelic expression can explain missing heritability, incomplete penetrance, non-Mendelian patterns of inheritance and manifestation of disease. This stochastic autosomal allele bias can manifest as a continuum of expression states, from minor allele expression imbalance to extreme bias or monoallelic expression. Stochastic autosomal allele bias can be the cause of differences in immune cell function, differences in manifestation of genetic diseases, and differences in cancer outcomes. Extreme allele bias is likely causative in non-Mendelian patterns of inheritance for several other autosomal dominant genetic diseases, reviewed in ref. Extreme allele expression bias of BRCA1/2, DAPK1 or APC are risk factors for breast cancer[29], chronic lymphocytic leukemia[30] and colorectal cancer[31], respectively
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