Impact of DNA Variants in the Regulatory Circuitry of Gene Expression inHuman Disease

Corradin, Olivia G.

03 June 2015

No description available.

Genetics

Genetics

Genomics

SNPs

GWAS

regulatory variants

autoimmune traits

enhancers

enhancer clusters

Human aging in the post-GWAS era: further insights reveal potential regulatory variants

Haider, S.A., Faisal, Muhammad

January 2015

No / Human aging involves a gradual decrease in cellular integrity that contributes to multiple complex disorders such as neurodegenerative disorders, cancer, diabetes, and cardiovascular diseases. Genome-wide association studies (GWAS) play a key role in discovering genetic variations that may contribute towards disease vulnerability. However, mostly disease-associated SNPs lie within non-coding part of the genome; majority of the variants are also present in linkage disequilibrium (LD) with the genome-wide significant SNPs (GWAS lead SNPs). Overall 600 SNPs were analyzed, out of which 291 returned RegulomeDB scores of 1-6. It was observed that just 4 out of those 291 SNPs show strong evidence of regulatory effects (RegulomeDB score < 3), while none of them includes any GWAS lead SNP. Nevertheless, this study demonstrates that by combining ENCODE project data along with GWAS reported information will provide important insights on the impact of a genetic variant-moving from GWAS towards understanding disease pathways. It is noteworthy that both genome-wide significant SNPs as well as the SNPs in LD must be considered for future studies; this may prove to be crucial in deciphering the potential regulatory elements involved in complex disorders and aging in particular.

Aging and longevity

Regulatory variants

Epigenetics

Human genetics

genome-wide association

nf-kappa-b

Glucocorticoid-receptor

Gene-expression

Alzheimers-disease

Cell-death

In-vivo

Hepatocellular-carcinoma

Histone modifications

Therapeutic target