Academic institutions grant commercial license for CRISPR-based SHERLOCK diagnostic technology in developed world
Rights are protected for broad use in developing world and for public health needs.
Rights are protected for broad use in developing world and for public health needs.
Master’s student and Marshall Scholar Kyle Swanson uses computer science to help make drug development more efficient.
Study suggests an alternative way to treat tumors that are dependent on the cancer-promoting Myc protein.
Near-infrared technology pinpoints fluorescent probes deep within living tissue; may be used to detect cancer earlier.
Researchers have devised a faster, more efficient way to design custom peptides and perturb protein-protein interactions.
Overactive repair system promotes cell death following DNA damage by certain toxins, study shows.
New test rapidly evaluates the effect of drugs and potentially toxic compounds on cells.
Antibiotics or anti-inflammatory drugs may help combat lung cancer.
New platform enables longitudinal studies of circulating tumor cells in mouse models of cancer.
Inexpensive 3-D-printed microfluidics device could be used to personalize cancer treatment.
Chemists discover an unexpected synergy between two types of cancer drugs.
A new study linking RNA processing to DNA repair may open new avenues to cancer therapy.
Together, cell growth rate and gene expression shed light on why some tumor cells survive treatment.
Double major Kerrie Greene builds connections in her research and her community.