Hell, I don't even understand what a Nanowire is, and yet I know this is some amazing shit.
Prediction; in the future, we won't even have to do away with the Jihadis, we'll just create another dimension, and move them the fuck into it. Then, they can just stay there and murder each other.
Anyway, check this out, from Al Fin:
Test Bed for Radical Evolution of Cells
Harvard researchers have devised a novel cell culture platform, which sets the stage for a program of radical designed cellular evolution. The test bed (of nails) provides a surface for cells to grow, but also provide a ready means of inserting a wide array of molecular, genetic, or biological (viruses) elements into the growing cellular machinery. Scientists can then observe the effects of various inserted elements upon the growth and behaviour of the cells.Author Hongkun Park, a professor of chemistry and physics at Harvard University, says that, in theory, "you can put more or less any molecule in more or less any kind of cell." If the method proves effective, it could greatly speed the ability to manipulate cells in a variety of applications, including stem-cell reprogramming and drug screening.
Park's lab recently discovered that cells can be grown on beds of vertical silicon nanowires without apparent damage to the cells. The cells sink into the nanowires and within an hour are impaled by the tiny spikes. Even resting on this bed of needles, cells continue to grow and divide normally. This setup makes it possible to directly interface with the cell's interior through the nanowires. "Since we now have direct physical access, we can deliver molecules into cells without the restrictions of other techniques that are available," Park says. He adds that while his lab has found that many different types of cells seem to accommodate the tiny wires without negative effects, further studies will be needed to examine whether any important cell behaviors are affected.
To use the nanowires to deliver molecules, Park's team first treated them with a chemical that would allow molecules to bind relatively weakly to the surface of the nanowires, then coated the wires with a molecule or combination of molecules of interest. When cells are impaled on the nanowires, the molecules are released into the cells' interior. The chemical treatment of the wires could potentially be manipulated to control the binding and release of molecules--releasing them more slowly, for instance--and the wires can be constructed at different lengths to reach different parts of the cell. To demonstrate the method's flexibility, the team used the approach to deliver chemicals, small RNA molecules, DNA, and proteins into a range of cell types.
The beds of nanowires can be arranged on microarrays suitable for rapid experiments and imaging cells under a microscope. These microarrays can be "printed" with different patterns or combinations of molecules, making it possible to test many different molecules at once on an array of cells. The authors believe it could be possible to screen 20,000 different proteins or other chemicals on cells within a single microscopic slide.
...Thorsten Schlaeger, a stem-cell researcher at Children's Hospital Boston, is investigating the potential of the approach for reprogramming stem cells. His lab is interested in turning embryonic and induced pluripotent stem cells into blood stem cells like those found in the bone marrow. Currently, this task requires infecting cells with a virus to introduce new genes into their DNA, and, Schlaeger says, "there's no good alternative right now." Schlaeger's team is looking for better ways to manipulate cells, as well as ways to screen stem cells for factors that can transform them from one cell type to another. "It's hard to say what will be possible because it's new, but it's intriguing," he says._TechnologyReview
Early applications of the technology will include micro-arrays for high-throughput drug testing, and other rapid screening applications. But the technology virtually screams "rapid evolution"!
Imagine growing complex neural networks onto such test beds -- which are equipped to inject and extract both a wide range of molecular materials, but also various types of electromagnetic stimuli. The idea would be to grow entire cortical columns on a 3 dimensional implementation, then to connect the cultured cortical columns together one at a time -- all the while closely monitoring every aspect of the chemical, genetic, and electrophysiological functioning of the complex networks.
That is just the beginning. And what a simple idea.
5 comments:
Pastorius,
Maybe we will be able to use our technological edge to beat them. In addition to our ground troops and tanks and jets, imagine the Jihadists up against an army of unmaned drones made out American steal carrying fully loaded Vulcan cannons. Machines have even less fear of death than suicide bombers.
And that is in addition to the fact that they could be bullet proof.
Drones carrying nuclear warheads.
Pastorius,
You wanna turn some sand to glass?
- : )
What about the death rays that emanate from the hair of Jewish women? We could use those too, huh?
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