Minimally disruptive genetic code expansion enables faithful, site-specific labeling of G3BP1 and TDP-43, revealing native stress granule dynamics and ALS-linked protein behavior in live cells.
David Baker’s research team at the Institute for Protein Design has unveiled a new technique for sequestering membrane ...
In the study of bacteria, a longstanding dogma has held that two molecular machines—RNA polymerase, which leads the way in transcribing DNA into RNA, and ribosomes, which bring up the rear translating ...
A prototype cell partly capable of replicating itself has been created using 36 existing bacterial genes, but it's not really ...
Computational chemists at the University of Amsterdam's Van 't Hoff Institute for Molecular Sciences have developed a comprehensive software suite to create accurate models of DNA in biomolecular ...
When it comes to cancer, tumor suppressor genes are usually thought of as the "good guys." These genes make proteins that protect and repair DNA in cells. If they stop functioning or there's not ...
EMBL researchers created SDR-seq, a next-generation tool that decodes both DNA and RNA from the same cell. It finally opens access to non-coding regions, where most disease-associated genetic variants ...
Lovable is hiring fast — and the vibe-coding startup is doing it in its own way. The Swedish company expects to grow to around 400 employees globally this year, Maryanne Caughey, who leads Lovable's ...
Even before the AI boom, data centers were already consuming staggering amounts of energy and natural resources. Now, generative AI has intensified that strain, exposing just how unsustainable our ...
Most people alive today carry fragments of Neanderthal DNA in their genome. Now scientists are gaining a more intimate understanding of the ancient encounters that put it there. By Carl Zimmer One of ...
In 1869, Swiss scientist Friedrich Miescher isolated a mysterious substance from cell nuclei—an overlooked finding that would later reshape biology and our understanding of life itself. A ...
Data from a new study in mice connects unrepaired DNA-protein crosslinks (DPCs), highly toxic tangles of protein and DNA, to inflammation-linked premature aging and embryonic lethality in mice. The ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results