Slice and dice
SNIPE, a newly characterized defense system, directly protects bacteria by chopping up invading viral DNA.
Study reveals “two-factor authentication” system that controls microRNA destruction
Researchers uncovered how cells selectively destroy certain microRNAs — key gene regulators — through a mechanism that requires two RNA signals working together.
How bacteria suppress immune defenses in stubborn wound infections
Study finds a common bacterium can suppress the body’s early warning system in wounds, causing infections to persist and create an environment that allows other bacteria to take hold.
Building the blocks of life
Computational biologist Sergei Kotelnikov is working to develop new methods in protein modeling as part of the School of Science Dean’s Postdoctoral Fellowship.
Leading with rigor, kindness, and care
“We cannot be effective scientists if we are unhappy or unhealthy outside of the lab,” says “Committed to Caring” honoree Sara Prescott.
MIT engineers design proteins by their motion, not just their shape
An AI model generates novel proteins based on how they vibrate and move, opening new possibilities for dynamic biomaterials and adaptive therapeutics.
QS World University Rankings rates MIT No. 1 in 12 subjects for 2026
The Institute also ranks second in seven subject areas.
Enduring passions for medicine, journalism, and triathlons
As an aspiring physician-scientist and editor-in-chief of The Tech, MIT senior Alex Tang has found inspiration in the lives of patients and others in his community.
CryoPRISM: A new tool for observing cellular machinery in a more natural environment
The method allows researchers to observe biomolecular complexes in a quick, accurate, and budget-friendly way, providing new insights into bacterial protein synthesis.
Ocean bacteria team up to break down biodegradable plastic
MIT researchers uncovered the roles of bacterial species from the environment as they consume biodegradable plastic.
New sensor sniffs out pneumonia on a patient’s breath
The technology could enable fast, point-of-care diagnoses for pneumonia and other lung conditions.
3 Questions: Building predictive models to characterize tumor progression
Assistant Professor Matthew Jones is working to decode molecular processes on the genetic, epigenetic, and microenvironment levels to anticipate how and when tumors evolve to resist treatment.
Studying the genetic basis of disease to explore fundamental biological questions
Eliezer Calo’s studies of craniofacial malformations have yielded insight into protein synthesis and embryonic development.
New insights into a hidden process that protects cells from harmful mutations
Research reveals how cells may activate a compensation system that can reduce the effects of harmful genetic mutations. This could inform gene therapy development.
W.M. Keck Foundation to support research on healthy aging at MIT
Assistant Professor Alison Ringel will investigate the intersection of immunology and aging biology, aiming to define mechanisms that underlie aging-related decline, thanks to a grant from the foundation.