DNA and water waves

2. New facts: new property of DNA and the action of electromagnetic waves in aqueous solutions.

The story began a decade ago, When one of us (L.M.) He studied behavior of small bacteria, the frequent companion of HIV, Mycoplasma pirum, and, similar to HIV, lover of human lymphocytes. L. M. trying to separate the bacterium, the size of which is about 300 nm, virus particles, whose size is approximately 120 nm, by filtration using a 100 nm filter and 20 nm. Starting with a pure culture of bacteria on lymphocytes, effluents were totally ineffective for bacteria in the development of rich cellular environment, SP4. Polymerase chain reaction (PCR) and nested PCR, based on instructions, obtained through the work with genes (M). Pirum, that had previously been cloned and are arranged in numerical order (adgezin), have failed the seep liquid canister. However, When the filtrate was incubated with human lymphocytes, (previously verified the lack of mikoplazma) Mycoplasma with all their properties regularly restored! Then the question arose: What information was transmitted to the water filtrate? This was the beginning of a long study on physical properties of DNA in water. Really, It was found new property of DNA (M). Pirum: the issue of low-frequency waves in some aqueous solutions of leachate, She soon discovered the DNA from other bacteria and viruses.

Device, used to detect electromagnetic signals, included solenoid, detecting the magnetic component of the waves, produced by a solution of DNA in a plastic tube, Converts the signals into electric current. This current further intensified and, finally, was analysed using a laptop and special software (Fig. 1).

Here is a summary of the laboratory studies, more fully described in [1, 2, 3]:

1) Over low-frequency electromagnetic waves (VLF 500-3000 Hz) some solutions were found in leachate (100 nm, 20 nm) cultures of micro-organisms (viruses, bacteria) or human plasma, infected by the same agents (Rice. 2). The same results are obtained with DNA, learned of them.
2) Electromagnetic signals (EMC) are not linearly correlated with the initial number of bacterial cells to their filtering. In one experiment, EMC were the same in suspension cells (E). coli, varying between 10 9 to 10 Hz. This phenomenon does not allow deviations.
Typical signals aqueous solutions
[clear] Figure 2. Typical signals of aqueous solutions (M). pirum (Matlab software). Note the positive signals solutions from D-7 to D-12.