IBM and the Institute of Bioengineering and Nanotechnology in Shanghai have designed a new type of polymer that can detect and destroy antibiotic-resistant bacteria such as MRSA. The polymer nanostructures also prevent bacteria from developing drug resistance. Moreover, because of the mechanism by which the nanostructures work, they don’t affect circulating blood cells, and, unlike most traditional antimicrobial agents, the nanostructures are biodegradable, naturally eliminated from the body rather than remaining behind and accumulating in tissues.
From the Nature Chemistry abstract by Nederberg, et al.: Read more »
*This blog post was originally published at Medgadget*
Luc Montagnier received the 2008 Nobel Prize for his discovery of the human immunodeficiency virus (HIV), but now he’s come up with a more-than-strange theory. He thinks DNA can teleport from one tube to another via electromagnetic signals. Is this the so-called “Nobel disease?”
French virologist Luc Montagnier stunned his colleagues at a prestigious international conference when he presented a new method for detecting viral infections that bore close parallels to the basic tenets of homeopathy.
Although fellow Nobel prize winners — who view homeopathy as quackery — were left openly shaking their heads, Montagnier’s comments were rapidly embraced by homeopaths eager for greater credibility.
Montagnier told the conference last week that solutions containing the DNA of pathogenic bacteria and viruses, including HIV, “could emit low frequency radio waves” that induced surrounding water molecules to become arranged into “nanostructures.” These water molecules, he said, could also emit radio waves.
He suggested water could retain such properties even after the original solutions were massively diluted, to the point where the original DNA had effectively vanished. In this way, he suggested, water could retain the “memory” of substances with which it had been in contact — and doctors could use the emissions to detect disease.
*This blog post was originally published at ScienceRoll*