|
Shop Online |
How cells "talk" to each other
I thought you would be interested in this article on viewzone.com about DNA, how the DNA molecule can actually communicate with molecules inside a human cell and with other cells and organisms by using unltaviolet photons. The link for the page is http://www.viewzone.com/dna.html .
Here is a small excerpt from the article: How cells "talk" to each other When you get a cut or scratch on your skin, the cells that are injured somehow signal the surrounding healthy cells to begin reproducing copies of themselves to fill in and mend the opening. When the skin is back to normal, a signal is sent to the cells to tell them to stop reproducing. Scientists have wondered exactly how this works. With biophoton emissions, Popp believed he had an answer to this question. This phenomenon of coordination and communication could only occur in a holistic system with one central orchestrator. Popp showed in his experiments that these weak light emissions were sufficient to orchestrate the body's repairs. The emissions had to be low intensity because these communications took place on a very small, intracellular, quantum level. Higher intensities would have an effect only in the world of the large and would create too much "noise" to be effective. The number of photons emitted seemed to be linked to the organism's position on the evolutionary scale -- the more complex the organism, the fewer photons were emitted. Rudimentary animals and plants tended to emit 100 photons/cm2/sec at a wavelength of 200-800 nm, corresponding to a very-high-frequency EM wave well within the visible range, whereas humans emit only 10 photons/cm2/sec at the same frequency. In one series of studies, Popp had one of his assistants -- a 27-year-old healthy young woman -- sit in the room every day for nine months while he took photon readings of a small area of her hand and forehead. Popp then analysed the data and discovered, to his surprise, that the light emissions followed certain set patterns -- biological rhythms at 7, 14, 32, 80 and 270 days -- and similarities were also noted by day or night, by week and by month, as though the body were following the world's biorhythms as well as its own. |
2006 Maximum Wellbeing Clinic. All rights reserved.
|
SECURE PAYMENT WITH
|