National Science Foundation (NSF)

Six days after treatment with IGF-1 carried by dendrimer nanoparticles (blue), the particles have penetrated through the cartilage of the knee joint.

Potential arthritis treatment prevents cartilage breakdown

Injectable material made of nanoscale particles can deliver arthritis drugs throughout cartilage.

November 28, 2018

The common model of gene regulation imagines the nucleus of the cell as a large space in which molecules involved in DNA transcription float around seemingly at random.

Activating a new understanding of gene regulation

Study reveals the role of the activation domain, a part of transcription factors previously shrouded in mystery.

November 16, 2018

Illustration shows how hydrogen ions (red dots), controlled by an electric voltage, migrate through an intermediate material to change the magnetic properties of an adjacent magnetic layer(shown in green).

Study opens route to ultra-low-power microchips

Innovative approach to controlling magnetism could lead to next-generation memory and logic devices.

November 12, 2018

The RV Knorr, in Norway’s Alesund harbor in February 2014, as the crew prepares to begin its Nordic Seas Experiment.

Oceanographers produce first-ever images of entire cod shoals

Wide-ranging acoustic images could help researchers identify populations on the brink of collapse.

November 6, 2018

$This photo shows water droplets placed on the nanostructured surface developed by MIT researchers. The colors are caused by diffraction of visible light from the tiny structures on the surface, ridges with a specially designed shape.$

A new approach to liquid-repelling surfaces

Novel surface design overcomes problem of condensation that bedeviled previous systems.

November 1, 2018

MIT researchers have developed a “semantic parser” that learns through observation to more closely mimic a child’s language-acquisition process, which could greatly extend computing’s capabilities.

Machines that learn language more like kids do

Computer model could improve human-machine interaction, provide insight into how children learn language.

October 31, 2018

By integrating conductive wires along with microfluidic channels in long fibers, the researchers were able to demonstrate the ability to sort cells — in this case, separating living cells from dead ones, because the cells respond differently to an electric field. The live cells, shown in green, are pulled toward the outside edge of the channels, while the dead cells (red) are pulled toward the c...

Inside these fibers, droplets are on the move

Fibers containing systems for mixing, separating, and testing fluids may open up new possibilities for medical screening.

October 29, 2018

This graphic shows NASA studies of high springtime ozone levels over Canada and the Arctic.

Simple, effective Earth-system modeling

A faster, cheaper modeling method could improve our understanding of long-term atmospheric chemistry and provide a powerful tool for risk assessment.

October 24, 2018

A collection of mini-spectrometer chips are arrayed on a tray after being made through conventional chip-making processes.

Inexpensive chip-based device may transform spectrometry

Tiny device could replace expensive lab-scale equipment for many applications.

October 23, 2018

“Even if you look at a clean study, the [outcome] is usually a composite of multiple components, any one of which could be actually causing the effect,” says Associate Professor Teppei Yamamoto.

Refining the “science” of political science

Teppei Yamamoto examines the methods of his discipline, to help scholars nail down cause and effect.

October 21, 2018

A large pool of meltwater over sea ice in the Beaufort Sea

Arctic ice sets speed limit for major ocean current

Long-term melting may lead to release of huge volumes of cold, fresh water into the North Atlantic, impacting global climate.

October 17, 2018

MIT biological engineers have devised a way to regulate the expression of RNA once it gets into cells, giving them precise control over the dose of protein that a patient receives, as shown in this conceptual image.

This RNA-based technique could make gene therapy more effective

Biological engineers design RNA circuits that enable precise control over the dose of therapeutic protein a patient receives.

October 16, 2018

Using a computer modeling approach that they developed, MIT biologists identified three different proteins that can bind selectively to each of three similar targets, all members of the Bcl-2 family of proteins.

Computer model offers more control over protein design

New approach generates a wider variety of protein sequences optimized to bind to drug targets.

October 15, 2018

MIT engineers created this model of the neuromuscular junction using motor neurons derived from ALS patients. The motor neurons (blue) send fibers called neurites (green) toward the muscle fibers (pink).

Testing new drugs with “ALS-on-a-chip”

3-D tissue model replicates the motor neuron connections affected by amyotrophic lateral sclerosis.

October 10, 2018

The ARC conceptual design for a compact, high magnetic field fusion power plant. The design now incorporates innovations from the newly published research to handle heat exhaust from the plasma.

A new path to solving a longstanding fusion challenge

Novel design could help shed excess heat in next-generation fusion power plants.

October 9, 2018

MIT News | Massachusetts Institute of Technology

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