DNA strand displacement circuits are inching closer to becoming cellular machines. Scientists are finding ways to make these programmable nanodevices stable and functional inside living cells. If ...

A team of CiRA researchers has uncovered the crucial role of EIF3D—a protein translational regulator—in primed pluripotency.

For decades, treatment options for rare diseases have been limited, often focusing on symptom management rather than ...

Top-down proteomics: Intact proteins are ionized and analyzed directly, allowing for the study of proteoforms and ...

Because RNAs are so central to our biology, they are also drivers of a wide array of diseases. Defects in how RNA is produced ...

However, its messenger RNA (mRNA) platform – building on continuous advances in basic and applied mRNA science – permits ... and amplification of plasmid DNA, a key building block in mRNA ...

Doudna and Charpentier won the Nobel Prize in Chemistry for their discovery of the CRISPR-Cas9 technique, a method of ...

New research pioneered by The University of Western Australia is shedding light on the intricate dance between proteins, DNA and RNA—the fundamental building blocks that carry out cellular processes ...

The founder of a lab that used new DNA technology to link hairs found on Gilgo Beach victims to accused serial killer Rex ...

Researchers have uncovered answers that provide the detail to explain two specific DNA repair processes that have long been in question.

Before Watson and Crick basked in Nobel glory, before The Double Helix mythologized their genius, there was the photo. Photo 51 — crisp, clear, and groundbreaking — captured by Dr. Rosalind Franklin, ...

Science, Sports & Play, a dynamic new exhibition developed with the generous support and active collaboration of the Walter Family Foundation, Los Angeles Dodgers Foundation, and LA84 Foundation ...