A STORM of scepticism has greeted experimental results emerging from the lab of a Nobel laureate which, if confirmed, would shake the foundations of several fields of science. “If the results are correct,” says theoretical chemist Jeff Reimers of the University of Sydney, Australia, “these would be the most significant experiments performed in the past 90 years, demanding re-evaluation of the whole conceptual framework of modern chemistry.”
Luc Montagnier, who shared the Nobel prize for medicine in 2008 for his part in establishing that HIV causes AIDS, says he has evidence that DNA can send spooky electromagnetic imprints of itself into distant cells and fluids. If that wasn’t heretical enough, he also suggests that enzymes can mistake the ghostly imprints for real DNA, and faithfully copy them to produce the real thing. In effect this would amount to a kind of quantum teleportationMovie Camera of the DNA.
Many researchers contacted for comment by New Scientist reacted with disbelief. Gary Schuster, who studies DNA conductance effects at Georgia Institute of Technology in Atlanta, compared it to “pathological science”. Jacqueline Barton, who does similar work at the California Institute of Technology in Pasadena, was equally sceptical. “There aren’t a lot of data given, and I don’t buy the explanation,” she says. One blogger has suggested Montagnier should be awarded an IgNobel prize.
Yet the results can’t be dismissed out of hand. “The experimental methods used appear comprehensive,” says Reimers. So what have Montagnier and his team actually found?
Full details of the experiments are not yet available, but the basic set-up is as follows. Two adjacent but physically separate test tubes were placed within a copper coil and subjected to a very weak extremely low frequency electromagnetic field of 7 hertz. The apparatus was isolated from Earth’s natural magnetic field to stop it interfering with the experiment. One tube contained a fragment of DNA around 100 bases long; the second tube contained pure water.
After 16 to 18 hours, both samples were independently subjected to the polymerase chain reaction (PCR), a method routinely used to amplify traces of DNA by using enzymes to make many copies of the original material. The gene fragment was apparently recovered from both tubes, even though one should have contained just water.
We’re waiting for some proper peer review before we make our minds up.
Full article at New Scientist – requires log in.
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