Putting carbon dioxide to good use
MIT biological engineers have found a way to convert carbon-dioxide emissions to useful building materials, using genetically altered yeast.
MIT hosts 28 Amgen Scholars this summer
Undergraduates invited to conduct hands-on research with MIT faculty
A pharmacy on the back of a cell
Drugs encapsulated in new MIT nanoparticles can hitch a ride to tumors on the surface of immune-system cells.
RNA offers a safer way to reprogram cells
New technique holds promise to revert cells to an immature state that can develop into any cell type.
Imaging fish on the fly
New MIT technology allows high-speed study of zebrafish larvae, often used to model human diseases.
A new use for gold
Engineers turn a drawback — the stickiness of gold nanoparticles — into an advantage.
Building organs block by block
Tissue engineers create a new way to assemble artificial tissues, using ‘biological Legos’ — cells transformed into bricks.
Explained: Directed evolution
Speeding up protein evolution in the lab can yield useful molecules that nature never intended.
Genes as fossils
MIT researchers discover the DNA responsible for creating fossil-like molecules found in ancient rocks.
Rapid analysis of DNA damage now possible
Technology offers a new way to test potential cancer drugs, detect effects of hazardous agents in our environment.
Biomanufacturing Research Program wins grant from Sloan Foundation
Will be used to examine globalization and regulatory compliance
Viruses harnessed to split water
MIT team’s biologically based system taps the power of sunlight directly, with the aim of turning water into hydrogen fuel.
Weighing the cell
MIT biological engineers devise a way to measure, for the first time, how single cells accumulate mass.
Slackers and superstars of the microbial workplace
MIT chemical engineers find that yeast engineered to manufacture drugs vary widely in their productivity