Technique recovers lost single-cell RNA-sequencing information
Boosting the efficiency of single-cell RNA-sequencing helps reveal subtle differences between healthy and dysfunctional cells.
Boosting the efficiency of single-cell RNA-sequencing helps reveal subtle differences between healthy and dysfunctional cells.
With computer models and lab experiments, researchers are working on a strategy for vaccines that could protect against any influenza virus.
Michael Birnbaum, Anders Hansen, and Tami Lieberman receive NIH Director’s New Innovator Awards from the NIH Common Fund’s High-Risk, High-Reward Research program.
Astrocytes with the APOE4 gene variant show deficits of a key cellular function, but overexpressing the gene PICALM overcame the defect.
Shortening carbohydrates in the bacterial cell wall makes them more vulnerable to certain drugs.
MIT engineers devise a temporary film that may help treat diabetes, infections, and other conditions.
Study finds that the fusiform face area is active when blind people touch 3D models of faces.
Bacteria linked to Crohn’s disease are difficult to grow in the lab, but MIT engineers have found a way.
Study finds “epigenomic” alterations evolve as lung tumors become more aggressive and metastasize.
New method for producing thermoset plastics allows them to be broken down more easily after use.
New analysis could help uncover potential drug targets for attention deficits and sensory hypersensitivity.
Company working with Sikes Lab to test feasibility of low-cost diagnostic that could be manufactured by the millions each day.
The prototype mask, which includes an N95 filter, can be easily sterilized and worn many times.
To spy on worms for days on end, Picower Institute scientists invent a new open-source microscopy platform.
In lab tests, virus-like DNA structures coated with viral proteins provoke a strong immune response in human B cells.