Enzyme “atlas” helps researchers decipher cellular pathways
Biologists have mapped out more than 300 protein kinases and their targets, which they hope could yield new leads for cancer drugs.
Moving water and earth
A new understanding of how particle shape controls grain flow could help engineers manage river restoration and coastal erosion.
Looking to the past to prepare for an uncertain future
Using sand and rock, MIT senior Aviva Intveld tells stories of ancient climates.
A new way to assess radiation damage in reactors
Engineers designed a tool that enables faster measurements of the condition of some nuclear reactor components, potentially extending their lifetimes.
Lecture series aims to demystify, celebrate tenure
DMSE’s Tenure Talks gives glimpse into the hard work, commitment, and decisions behind one of academia’s most important posts.
Unpacking the “black box” to build better AI models
Stefanie Jegelka seeks to understand how machine-learning models behave, to help researchers build more robust models for applications in biology, computer vision, optimization, and more.
Riddle solved: Why was Roman concrete so durable?
An unexpected ancient manufacturing strategy may hold the key to designing concrete that lasts for millennia.
Portraiture at the intersection of art, science, and society
Exhibit at MIT's Koch Institute attempts to make visible the luminary personalities behind major scientific and engineering advances.
Simulating discrimination in virtual reality
The role-playing game “On the Plane” simulates xenophobia to foster greater understanding and reflection via virtual experiences.
Scientists discover a new way of sharing genetic information in a common ocean microbe
Prochlorococcus, the world’s most abundant photosynthetic organism, reveals a gene-transfer mechanism that may be key to its abundance and diversity.