How molecular clusters in the nucleus interact with chromosomes
A new study finds the clusters form small, stable droplets and may give the genome a gel-like structure.
A new study finds the clusters form small, stable droplets and may give the genome a gel-like structure.
The findings could inform the design of new materials such as iridescent windows or waterproof textiles.
Senior Desmond Edwards has an insatiable curiosity about how the human body works — and how diseases stop it from working.
MIT biologists show that helper immune cells disguised as cancer cells can help rejuvenate T cells that attack tumors.
Condensed-matter theory PhD candidate Makinde Ogunnaike is featured in the Poetry of Science project.
Researchers analyze and compare pre- and post-pandemic data for introductory biology MOOC 7.00x.
MIT biologists show that enlargement of blood stem cells restricts their ability to generate new blood cells during aging.
Those selected for these positions receive additional support to pursue their research and develop their careers.
Researchers decipher when and why immune cells fail to respond to immunotherapy, and suggest that T cells need a different kind of prodding in order to re-engage the immune response.
Honor recognizes professors who went the extra mile advising during the pandemic’s disruptions.
A new study finds cutting off cells’ supplies of lipids can slow the growth of tumors in mice.
By combining chemotherapy, tumor injury, and immunotherapy, researchers show that the immune system can be re-engaged to destroy tumors in mice.
Film examines the history and international impact of the 1999 Study on the Status of Women Faculty in Science at MIT, through interviews with Nancy Hopkins and other leading scientists.
Researchers glean a more complete picture of a structure called the nuclear pore complex by studying it directly inside cells.
Awards support high-risk, high-reward biomedical and behavioral research.