Interesting Engineering

New 4D genome maps reveal how genes fold, interact, and reposition as cells divide

New 3D genome maps reveal how DNA folding controls gene activity, offering fresh clues into disease and cell function.
Knowridge Science Report

Beyond “junk DNA”: Scientists find a hidden gene that controls cell size

These genes are part of the non-coding genome, which makes up about 98% of our DNA and was long dismissed as “junk.” This new research adds to growing evidence that this vast genetic landscape plays a ...
New Atlas

No DNA evidence at crime scene? Protein analysis comes to the rescue

Your next favorite true crime podcast might have some new forensics jargon to make sense of. Researchers in Australia have developed a new way to identify humans – similar to how we do with DNA and ...

Scientists identify first non-coding gene that controls cell size

What keeps our cells the right size? Scientists have long puzzled over this fundamental question, since cells that are too ...
Frontiers

Single-Cell CRISPR Perturb-Seq Mapping of Non-Coding Regulatory Elements in Human Disease

Large-scale human genetics studies have shown that many risk variants for common and complex diseases sit in the non-coding ...

Newly Discovered DNA “Danger Zone” Could Change What We Know About Human Disease

A new study reports that the locations where genes begin are particularly prone to mutations, and these genetic changes can be inherited by later generations. Researchers have identified previously ...
GitHub

DNA Barcoding Analysis Pipeline

A complete automated workflow for analyzing Sanger sequencing chromatograms (.ab1 files) to identify mosquito species using COI DNA barcoding. Built for ENTM201L students at UC Riverside with zero ...