MIT, Broad scientists overcome key CRISPR-Cas9 genome editing hurdle
Team re-engineers system to dramatically cut down on editing errors; improvements advance future human applications.
New system for human genome editing has potential to increase power and precision of DNA engineering
CRISPR-Cpf1 offers simpler approach to editing DNA; technology could disrupt scientific and commercial landscape.
A metabolic master switch underlying human obesity
Researchers find pathway that controls metabolism by prompting fat cells to store or burn fat.
Researchers develop basic computing elements for bacteria
Sensors, memory switches, and circuits can be encoded in a common gut bacterium.
Fast modeling of cancer mutations
New genome-editing technique enables rapid analysis of genes mutated in tumors.
Researchers engineer new mouse model to study disease
Time-saving tool takes advantage of CRISPR gene-editing technology.
Battling superbugs
Two new technologies could enable novel strategies for combating drug-resistant bacteria.
An easier way to manipulate malaria genes
New approach to knocking out parasite’s genes could make it easier to identify drug targets.
A new way to model cancer
New gene-editing technique allows scientists to more rapidly study the role of mutations in tumor development.
Feng Zhang wins NSF's Alan T. Waterman Award
Waterman Award is NSF's highest honor recognizing an outstanding researcher under the age of 35.