Revealing new insights on membrane protein organization
Neha Kamat and her team uncovers how differences in the thickness of biological membranes can impact a protein’s ability to insert and move within membranes.
Neha Kamat and her team uncovers how differences in the thickness of biological membranes can impact a protein’s ability to insert and move within membranes.
New technique made human T-cells 100 times more potent at killing cancer cells.
Study marks critical step in creating new therapies to treat antibiotic-resistant infections
Northwestern University synthetic biologists have developed a flexible new platform that removes barriers for promising cell and gene therapies.
Synthetic biologists have developed a new technique for measuring protein folding stability on an unprecedented scale.
Scientists develop a “QR code” to provide other researchers information about how cancer cells react to treatment.
A multi-institutional research team including Professor Michael Jewett implemented a new process to produce butanol, butanoic acid, hexanol, and hexanoic acid, which could make green energy easier to generate.
Northwestern Now | Shelf-stable vaccines avoid waste, expand access Drug Discovery News | Vaccines: Just Add Water BioPharma Reporter | Membranes unlock potential to increase cell-free vaccine production The Chemical … Continued