-Regulatory functional assays are methods that directly test whether specific -DNA sequences control gene expression - such as by acting as enhancers, -promoters, silencers, or other regulatory elements — by measuring their effect -on transcription in cells. Among these, Massively Parallel Reporter Assays -(MPRAs) are high-throughput experimental methods that test thousands of DNA -sequences or genetic variants for their effects on gene -regulation by measuring transcriptional output using sequencing. +Massively Parallel Reporter Assays +(MPRAs) are high-throughput experimental methods that measure +transcriptional output of thousands of short DNA sequences using sequencing. +If in addition, a mutated sequence is tested, the impact of a genetic variant can be quantified.
This track collection brings together results from two MPRA databases, one for the complete sequence fragments, -one for the variants in selected fragments: +one for the impact of variants in selected fragments:
See the individual subtrack documentation pages linked above for detailed information on how to download and intersect the annotations.
Thanks to Tao Wang and colleagues at the University of Florida for MPRAVarDB, and to Varda Singhal and the Ahituv Lab at the University of California San Francisco for MPRA Base.
Wang T, Matreyek KA, Yang X. MPRAVarDB: an online database and web server for exploring regulatory effects of genetic variants using MPRA data. Bioinformatics. 2024 Apr 15;40(4):btae201. PMID: 38617248; PMC: PMC11014600
Zhao J, Baltoumas FA, Konnaris MA, Mouratidis I, Liu Z, Sims J, Agarwal V, Pavlopoulos GA, Georgakopoulos-Soares I, Ahituv N. MPRAbase: A Massively Parallel Reporter Assay Database. bioRxiv. 2023 Nov 22;. PMID: 38045264; PMC: PMC10690217