Biologists discover a trigger for cell extrusion
Study suggests this process for eliminating unneeded cells may also protect against cancer.
Study suggests this process for eliminating unneeded cells may also protect against cancer.
New, reversible CRISPR method can control gene expression while leaving underlying DNA sequence unchanged.
Varying levels of a DNA repair enzyme can lead to very different outcomes after exposure to NDMA.
Kano Therapeutics was one of eight finalists to pitch at the virtual competition.
Analysis reveals genetic control elements that are linked to hundreds of human traits.
Using CRISPR technology, researchers are tracking the lineage of individual cancer cells as they proliferate and metastasize in real-time.
MIT study sheds light on the longstanding question of why cancer cells get their energy from fermentation.
Modifications to chromosomes in “engram” neurons control the encoding and retrieval of memories.
Findings related to bacterial gene expression overturn fundamental assumptions about basic biological pathways.
Study finds “epigenomic” alterations evolve as lung tumors become more aggressive and metastasize.
A physicist employs super-resolution microscopy to peer inside living cells and witness never-before-seen phenomena.
An unconventional geneticist uses cryogenic electron microscopy and crystallography to understand gene expression and cell fate.
Applied computational biology discoveries vastly expand the range of CRISPR’s access to DNA sequences.
New CRISPR-based research tool delivers results in an hour; researchers share protocol and kits to advance research and move toward clinical validation.
MIT biochemists can trap and visualize an enzyme as it becomes active — an important development that may aid in future drug development.