CHARMed collaboration creates a potent therapy candidate for fatal prion diseases
A new gene-silencing tool shows promise as a future therapy against prion diseases and paves the way for new approaches to treating disease.
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A new gene-silencing tool shows promise as a future therapy against prion diseases and paves the way for new approaches to treating disease.
Known for her rigorous approach to science and her influential research, Pardue paved the way for women in science at MIT and beyond.
Second annual assembly, sponsored by the Department of Biology and Picower Institute, invited postdocs from across the country to meet with faculty, present their work to the MIT community, and build relationships.
A new approach for identifying significant differences in gene use between closely-related species provides insights into human evolution.
The first RNA-guided DNA-cutting enzyme found in eukaryotes, Fanzor could one day be harnessed to edit DNA more precisely than CRISPR/Cas systems.
Study finds the protein MTCH2 is responsible for shuttling various other proteins into the membrane of mitochondria. The finding could have implications for cancer treatments and MTCH2-linked conditions.
“We can’t think of the brain only as neurons,” says PhD student Mitch Murdock, who explores the cellular basis of Alzheimer’s disease.
Jonathan Weissman and collaborators used their single-cell sequencing tool Perturb-seq on every expressed gene in the human genome, linking each to its job in the cell.
Departments of Biology and Brain and Cognitive Sciences welcome new professors.
The technique can help predict a cell’s path over time, such as what type of cell it will become.
Researchers find RNA-guided enzymes are more diverse and widespread than previously believed.
Roundworms change the flow of material in and out of their mouths in response to bright light, revealing a new way for neurons to control muscle cells.
Pablo Jarillo-Herrero, Aviv Regev, Susan Solomon, and Feng Zhang are the recipients of distinguished awards for major contributions to science.
Whitehead Institute researchers uncover framework for how stem cells determine where to form replacement structures.
Peter Reddien believes human stem cells could one day be regulated to replace aged, damaged, and missing tissues.