MIT crafts genetic circuits that remember their work through DNA

MIT crafts genetic circuits that remember their work through DNA

It's easy to find work on gene-based storage; finding genes that will do any of the heavy lifting is another matter. MIT believes it has a genetic circuit that will finally get to work, and then some. In using recombinase enzymes to alter DNA sequences serving as logic gates, researchers have developed a cellular circuit that not only mimics its silicon cousins, but has its own built-in memory. As the gate activation makes permanent changes to a given DNA sequence, any gate actions stay in memory for up to 90 generations -- and will hang around even if the cell's life is cut short. MIT sees its technique as having ultimate uses for areas where longer-term memory is important, such as environmental sensors, but could also see varying output values helping with digital-to-analog converters and other devices where there's a need for more precision. While there's no word on imminent plans for real-world use, the development raises the possibility of processors that could skip the traditional memory cache as they pass info down the family tree.

Filed under: ,

Comments

Via: SciTechDaily

Source: MIT

Athens university prints polymer circuits with lasers, speeds us towards low-cost electronics

University of Athens prints polymer circuits with lasers, speeds us towards lowcost electronics

The dream of ubiquitous technology revolves around cheaper materials, and polymer circuits could help make the dream a reality... if the solvents used to produce the circuits didn't cause more problems than they cured, that is. The National Technical University of Athens has developed a more exacting technique that, like most good things in science, solves the crisis with lasers. The approach fires a laser at a polymer layer (covered by quartz) to throw some of that polymer on to a receiving layer; by moving the two layers, the scientists can print virtually any 2D circuit without resorting to potentially damaging chemicals. Any leftover worries center mostly around risks of changing the chemical composition as well as the usual need to develop a reliable form of mass production. Any long-term success with laser-printed polymers, however, could lead to more affordable technology as well as more instances of flexible and wearable gear -- there might not be much of a downside to ditching the circuit status quo.

Filed under:

Athens university prints polymer circuits with lasers, speeds us towards low-cost electronics originally appeared on Engadget on Fri, 16 Nov 2012 17:32:00 EDT. Please see our terms for use of feeds.

Permalink MIT Technology Review  |  sourceCornell University Library  | Email this | Comments

Visualized: London Underground circuit map is also a radio

Visualized: London Underground circuit map is also a radio

London has a rich history of underground radio stations, but what if we flipped that, and turned London's Underground into a radio? Well it'd look like this. The circuit-board radio project is a collaboration between Yuri Suzuki and Masahiko Shindo, and uses Harry Beck's iconic tube map design. Note the choice of BBC's White City for the tuner, and Hyde Park's Speaker's Corner for volume control -- plus a few other famous names changed for geeky in-joke fun. We love the attention to detail, we just hope it's not permanently tuned to Capital FM.

Filed under:

Visualized: London Underground circuit map is also a radio originally appeared on Engadget on Sun, 16 Sep 2012 13:05:00 EDT. Please see our terms for use of feeds.

Permalink PSFK  |  sourceDesign Boom  | Email this | Comments