A Traffic Control System For Molecules

Roland Piquepaille writes "Our cells contain small protein factories which have to deliver materials inside the cell via a network of microtubules. And the transportation is carried out by biomolecular motors. Now, researchers from Delft University of Technology in the Netherlands have built a traffic control system able to force individual molecules to choose between 'roads' by applying strong electrical fields locally at Y-junctions. This traffic control system can potentially lead to new nano-fabrication techniques. Read more for additional references and pictures showing how this traffic system works."

interference

[spacerodent]

With the tiny charges they're using would this ever be effective outside the lab setting? I would imagine that the crazy EMF of every day life would seriously fuck these up

awesome work

[monkeyos]

but really, this is awesome work, this means we can have algorithmic control over the mixture and separation of proteins. good for making new stuff, but also good for investigating the interplay between information and biochemistry

Re:interference

[DrSkwid]

How does one measure the presence/absence of an atom compared to the charge of an electron ?

Effecieny is a tin pot dictator.

Re:awesome work

[TapeCutter]

Before we can have "algorithmic control over the mixture and separation of proteins", we need a way to indetify the protiens and tie it to the switching mechanisim. In TFA the researchers used coloured protiens and appear to have switched each "junction" manually. Having said that, it's a neat trick!

OTOH: Early model computers used manually operated telephone switches.

Re:Maxwell's Demon now a possibility?

[jamesh]

Doesn't this technology allow a stream of moving molecules to be diverted down one path or another? So the Maxwell's Demon thought experiment would have to be modified so that the molecules would be pumped through a tube where they could be analysed and any that had a temperature above ambient would be diverted into the 'hot' pool, and any that were lower would be diverted back into the 'cold' pool.

Then you have to take into account the pump, the analysis, and the diversion, which would probably cancel out any effect that the 'Demon' would have on the actual temperature of either side, or at least be no more efficient than other methods of pumping heat.

Re:What took so long?

[pimpimpim]

Well (disclaimer: I did not really read any of the articles), dielectrophoresis seems a 'static' separation technique, to influence position of particles, and this stuff from Cees Dekker seems a sort of dynamic procedure to influence flow of particles, which is a whole step more complex. I would take 10 years to go from one to the other ;)

On a different note, I am a bit dissappointed that it is the same Cees Dekker who is a (or better: the only) big promotor in the Netherlands of the idea of Intelligent Design. This guy is doing such amazing research, that you start to wonder how he could ever combine this with the not very well-founded theory that ID is.

Note to people with mod points: I am stating my personal opinion here: if you disagree, don't mod me down because of this opinion, but give decent replies. If you think the post is crappy for what it is, then mod as you wish.