Biologists answer fundamental question about cell size
The need to produce just the right amount of protein is behind the striking uniformity of sizes.
The need to produce just the right amount of protein is behind the striking uniformity of sizes.
Research from the lab of assistant professor of chemistry Gabriela Schlau-Cohen advances the understanding of plants' photosynthetic machinery.
Study uncovers language patterns that AI models link to factual and false articles; underscores need for further testing.
New test rapidly evaluates the effect of drugs and potentially toxic compounds on cells.
Microscopy technique could help researchers design safer reactor vessels or hydrogen storage tanks.
Climate-driven changes in phytoplankton communities will intensify the blue and green regions of the world’s oceans.
Firms learn from experience in the measurement, reporting, and verification of carbon emissions under China’s emissions trading systems.
A new database of images could pave a path for algorithmic models that ensure accurate diagnoses of conditions like pneumonia.
Researchers pinpoint the “neurons” in machine-learning systems that capture specific linguistic features during language-processing tasks.
The dynamic process is critical to embryonic development and other cellular phenomena.
Approach developed by MIT engineers surmounts longstanding problem of light scattering within biological tissue and other complex materials.
Antibiotics or anti-inflammatory drugs may help combat lung cancer.
Undergraduate researchers discussed their projects at a well-attended poster session.
Low-cost sensors on Hawaii's Kilauea volcano provide an educational resource and give insight into air quality across Big Island.
Machine-learning approach could help robots assemble cellphones and other small parts in a manufacturing line.