Wave DNA replica

Demonstration of the ability of DNA to wave replicas.
During the experiments, we found the ability of DNA in vitro preparations to replicate many times feedback-display, a replica of the DNA and its immediate environment. Such replicas are a response to certain combinations impact of electromagnetic fields in the range of UV-IR. The replica can be built only horizontally in both directions, move on complex trajectories, and also save some time after exposure to the drug fields of DNA. (Fig. 1-4).
g1Fig. 1. Effect of wave replicating DNA and surrounding objects. Left control, the right experience. The second method for identifying DNA replica of the wave.

Fig. 2 ((a). Discreteness and complexity of DNA replica of the wave trajectory. (on the left is the original image, right-kontrastirovannoe). The first version of methods for detection of DNA replica of the wave.

Fig. 2 (b). Brightness distribution image color channels: Red(R), Green((G)), Blue((B)).

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Rice. 3 ((a)

Rice. 3 ((a).Prostranstvennaya dynamic DNA wave replicas. See thin longitudinal trajectory track structure.

Figure 3 (b).Raspredelenie luminances of color channels: Red (R), Green ((G)), Blue ((B)).

Figure 3 (b).Raspredelenie luminances of color channels: Red (R), Green ((G)), Blue ((B)).

Figure 3 (b)

Figure 3 (b).Raspredelenie luminances of color channels: Red (R), Green ((G)), Blue ((B)).

The image on the control pictures, When sources affecting the biological product of physical fields are not included, This phenomenon is not observed. Also as there are no effects when operating equipment., but without DNA. For the exposure time (1 sec.) in the first version of the experiments (see. Methods) wave replicas of DNA move in space and mul′tipliciruûtsâ, their trajectory is not predictable and discrete. Generation of replicas happens only when the mutual spatial traits of DNA, sources of exciting fields and camera. Touch DNA to the drug (the second version of the experiments) changes the vector distribution of replicas in the space at diametrically opposed (from left to right), and then the disappearance of (Fig. 5 ((a), b, in)). Significantly, in some cases there is not only a wave of mul′tireplicirovanie DNA, but the surrounding objects (Rice. 1, 5 ((a), b)).For analysis of color print on the emulsion film are images, obtained when scanning film, as the brightness distribution in different color channels: Red (R), Green ((G)), Blue ((B)): in Figure 1. 2(b), 3(b), 4(b). In the image, Figure. 2 ((a), b), You can see, that almost all of the brightness scale replica image is the red color channel, in the Green and blue are faintly visible. The same prevalence of red channel brightness range can be seen on the accompanying figure 3 (b) the brightness histogram (Rice. 3 (in)) related channels. Noteworthy is the part of the histogram, where the replicated image: brightness portion in the range from 128 to 255 - well featured peak values ​​in the histogram of the red as compared with almost uniform decrease in the same area histogram of green and blue channels.