Biological engineering

The gene that causes Huntington's disease does most of its damage in the basal ganglia, shown in pink. The basal ganglia are responsible for many functions, including voluntary motor control and habit formation.

Possible role for Huntington’s gene discovered

Mutant forms of the gene disrupt chemical modifications that control access to genes necessary for normal brain cell function.

January 16, 2013

This image shows multiple microfluidic sites in a single system that can be used to conduct many experiments simultaneously.

Tiny tools help advance medical discoveries

MIT researchers are designing tools to analyze cells at the microscale.

January 8, 2013

Two MIT professors win prestigious Wolf Prize

Michael Artin and Robert Langer honored for groundbreaking work in mathematics and chemistry.

January 4, 2013

Professor Roger Kamm, left, and PhD candidate Ioannis Zervantonakis

Professor Roger Kamm visualizes sneaky tumor cells with 3-D assay

Kamm is studying the mechanics of metastasis, the process of cancer-cell migration from one location in the body to another and the cause of more than 90 percent of cancer deaths.

December 26, 2012

MIT biologists have found that alternative splicing of messenger RNA accounts for much of the differences seen between species.

Evolution: It’s all in how you splice it

MIT biologists find that alternative splicing of RNA rewires signaling in different tissues and may often contribute to species differences.

December 20, 2012

Researchers at MIT and the University of Pennsylvania successfully grew blood vessels within liver tissue grown in the lab. The red circle is a cross-section of the vessel, and endothelial cells (red) sprout from the surface of the tube.

Tissue engineering: Growing new organs, and more

Research could lead to better ways to heal injuries and develop new drugs.

December 14, 2012

MIT engineers have devised a way to stack neurons to form three-dimensional brain tissue.

Precisely engineering 3-D brain tissues

New design technique could enable personalized medicine, studies of brain wiring.

November 30, 2012

This diagram of the molecular structure of one of the artificially produced versions of spider silk depicts one that turned out to form strong, well-linked fibers. A different structure, made using a variation of the same methods, was not able to form into the long fibers needed to make it useful. Musical compositions based on the two structures helped to show how they differed.

The music of the silks

Researchers synthesize a new kind of silk fiber — and find that music can help fine-tune the material’s properties.

November 28, 2012

Fernando Garibay, an executive with Interscope Records and long-time Lady Gaga collaborator, speaks about innovation and the music industry during an event hosted by do.it@MIT, a student group dedicated to innovation.

When it comes to fostering innovation, student group says 'Do it!'

Lady Gaga collaborator and Interscope executive highlights do.it@MIT’s wide-ranging approach.

November 19, 2012

A surface mucous cell bordering on the stomach lumen secretes mucus (pink stain).

Fighting bacteria with mucus

Study shows that key proteins in mucus prevent bacterial adhesion to surfaces, could help prevent growth of biofilms.

November 8, 2012

MIT biological engineers created new genetic circuits using genes found in Salmonella (seen here) and other bacteria.

MIT team builds most complex synthetic biology circuit yet

New sensor can detect four different molecules, could be used to program cells to precisely monitor their environments.

October 7, 2012

15 MIT students named Siebel Scholars

Graduate students in computer science, bioengineering and business honored.

September 10, 2012

Green circular glowing lines on a black background

Merging tissue and electronics

New tissue scaffold could be used for drug development and implantable therapeutic devices.

August 27, 2012

New study finds link between cell division and growth rate

Findings answer puzzling question of how cells know when to progress through the cell cycle.

August 6, 2012

DARPA and NIH to fund ‘human body on a chip’ research

MIT-led team to receive up to $32 million from DARPA and NIH to develop technology that could accelerate pace and efficiency of pharmaceutical testing.

July 24, 2012

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