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biological effects of action of electromagnetic radiance on ion fluxes

One of the important ranges of cellular researches includes studying of system of cellular signals, as choronomic (such as tsitokiny, nejrotransmittery and hormones), and intrinsic which can be received, for example, by activation of the endocellular alarm cascade.

Ions of calcium Ca2 + play the important role in choronomic and intrinsic signals in a cage. Endocellular calcium regulates the cellular proteins participating in endocellular alarm cascades and in a cellular homeostasis [57]. It is known, that calcium also regulates such processes, as cellular division, a differentiation, ekzotsitoz and a differential transcriptional of genes. Stimulation by choronomic signals, for example hormones or nejrotransmitterami, leads to endocellular oscillation Ca2 + in many phylums of cages. They can extend through intercellular clefts and co-ordinate activity of bunch of cages [57]. The time augmentation of endocellular concentration of ions of a potassium, so-called kaltsievye "thorns", is most expressed in the excitatory and muscular cages and initiates cage reduction.

The early researches in detail analysed in the review [36], have allowed to reveal, that very low levels EMP, too weak fabrics for heating, increased outflow of calcium from the isolated hemispheres of a brain. This outflow estimated by locomotion measurement radiomechenyh calcium ions in vitro [58-60, 101, 102] and in vivo [34]. However, attempts of other authors to confirm the previous results have not crowned success. In work [247] at an irradiating of a brain of a rat in vitro with the frequency of 1 GHz pulsing at 16 or 32 Hz, effect of radiance on calcium outflow it was not observed. Attempt of repetition of similar experiment on fabric of a brain of a hen [38] which have been placed in oksigenirovannyj solution and consequently, remained viable, also has not led positive results. Thus, considering discrepancy of the received results, their reliable interpretation and furthermore ekstrapolirovanie on a human body, are problematic enough.

Earlier it has been shown, that EMP low intensity invoked transit of ions of a potassium and sodium through a membrane of erythrocytes on a gradient of concentration [33]. Similar effects of a microwave irradiating were observed and in other phylums of cages, for example in cages of the mouse [12] and in bacteria [146]. In works [238, 244, 249] it has been shown, that weak EMI leads to change of permeability of membranes bukkalnogo an epithelium of the person for vitalnyh dyes (indigokarmina and tripanovogo dark blue) which is reversible [192].

Some reports on influence RCH of radiance on fissured contacts are published. Fissured contacts represent a clump of the canals formed by squirrels-konneksinami by means of which there is a transmission of ions and small moleculas between the next cages. Defect in system of intercellular communications is the important event during many-stage process of a carcinogenesis, and is considered as one of negenotoksichnyh carcinogenesis mechanisms. Thus, fissured contacts can be used as a biomarker for an assessment of possible influence RCH of radiance on a physiological state of biosystem. Results of work [282] have shown, that fissured contacts of epithelial cages of a crystalline lens of a rabbit ingibirujutsja depending on dose RCH of radiance. Nevertheless, in work [79] similar effects EMI on fissured contacts have not been revealed.

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A source: Skamrova Galina Borisovna. COMBINED ACTION of WEAK MICROWAVE RADIANCE And DNK-SVJAZYVAJUSHCHIHSJA PREPARATIONS ON CAGES BUKKALNOGO of the EPITHELIUM of the PERSON. 2014

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