Publications
Using innovative fluorescent sensors and computational modeling, CU Boulder biochemistry researcher Amy Palmer tracked naturally cycling cells to better understand an essential micronutrient. Read more...
CU Boulder researchers have identified a surprising new player in the disease—an ancient, virus-like protein best known, paradoxically, for its essential role in enabling placental development. The findings were recently published in the
The Falke lab's recent publication "Single Molecule Studies Reveal Regulatory Interactions between Master Kinases PDK1, AKT1 and PKC" was selected by the Biophysical Journal editors as "New and Notable".
Look deep inside the brain of someone with Alzheimer’s disease, most forms of dementia or the concussion-related syndrome known as chronic traumatic encephalopathy (CTE) and you’ll find a common suspected culprit: stringy, hairball-like tangles of a
Some of the most commonly used drugs for treating hereditary breast and ovarian cancers may not work the way we thought they did, according to new CU Boulder research.
Scientists at CU Boulder have discovered that a type of single-celled organism living in modern-day oceans may have a lot in common with life forms that existed billions of years ago—and that fundamentally transformed Earth.
A new CU Boulder-led study sheds light on a protein key to controlling how cells grow, proliferate and function and long implicated in tumor development.
In a study published July 6 CU Boulder researchers come one step closer to answering that fundamental question, concluding that the molecular messenger RNA (ribonucleic acid) plays an indispensable role in cell differentiation, serving as
Researchers at CU Boulder, led by Biochemistry Professor Robert Batey, have developed compositions and methods for temporal regulation of single guide RNAs (sgRNAs) that comprise a small molecule-binding aptamer in the sgRNA, which enables
