Contribution of 3D genome topological domains to genetic risk of cancers: a genome-wide computational study

Abstract: Background Genome-wide association studies have identified statistical associations between various diseases, including cancers, and a large number of single-nucleotide polymorphisms (SNPs). However, they provide no direct explanation of the mechanisms underlying the association. Based on the recent discovery that changes in 3-dimensional genome organization may have functional consequences on gene regulation favoring diseases, we investigated systematically the genome-wide distribution of disease-associated … Show more

“…[39][40][41] The SNP sites in the lncRNA sequence can damage the binding of protein to the lncRNA, resulting in the abnormal activity of the promoter that is lncRNA-mediated, and then induce the disordered expression of the target gene. 30,[42][43][44] Last but not the least, SNP mutations can destroy the expression of genes by altering the structures of topologically associating domains (TADs) [45][46][47][48] or disrupting tandem repeats. 49 Given the complexity of the regulatory…”

Strategies for activity analysis of single nucleotide polymorphisms associated with human diseases

“…[39][40][41] The SNP sites in the lncRNA sequence can damage the binding of protein to the lncRNA, resulting in the abnormal activity of the promoter that is lncRNA-mediated, and then induce the disordered expression of the target gene. 30,[42][43][44] Last but not the least, SNP mutations can destroy the expression of genes by altering the structures of topologically associating domains (TADs) [45][46][47][48] or disrupting tandem repeats. 49 Given the complexity of the regulatory…”

Strategies for activity analysis of single nucleotide polymorphisms associated with human diseases