Fast synthesis could boost drug development
Chemists devise a new way to manufacture peptide drugs, which hold promise for treating many diseases.
New view of tumors’ evolution
Sequencing of cancer cell genomes reveals potential new drug targets for an aggressive type of lung cancer.
Research reveals structure of key CRISPR complex
Work reveals how a genome-editing tool works to correct errors in the genetic code.
Broad Institute launches next decade with new $100 million gift
Historic pledge from Eli and Edythe Broad to propel institute into a new decade of biomedical discovery to benefit patients.
Researchers develop new method for understanding network connections
Technique could be applied to the study of disease, social networks and other diverse fields.
Controlling genes with light
New technique can rapidly turn genes on and off, helping scientists better understand their function.
Research update: Genome editing becomes more accurate
Improved technique makes it easier to add or delete genes in living cells, with less risk of off-target DNA damage.
New way to target an old foe: malaria
Engineered liver tissue developed at MIT could help scientists test new drugs and vaccines.
A step closer to artificial livers
Researchers identify compounds that help liver cells grow outside the body.
Editing the genome with high precision
New method allows scientists to insert multiple genes in specific locations, delete defective genes.
Weapon-wielding marine microbes may protect populations from foes
In some populations, natural antibiotics are produced by a few individuals whose closest relatives carry genes conferring resistance.
Researchers identify biochemical functions for most of the human genome
New map provides a reference for interpreting function of disease-associated regions.
Institute faculty share prestigious neuroscience prize
Ed Boyden and Feng Zhang awarded the Perl/UNC Neuroscience Prize