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possible mechanisms of influence of electromagnetic radiance on cellular frames

When EMI co-operates with biological object, effects of reflectance, absorption, refraction or dispersion [257] are observed. For analysis of these processes use the following principle: only that part of energy of radiance can invoke changes in material which is absorbed by this material; the reflected or passing energy does not render any action (principle Grotgusa) [98].

Thus, for achievement of the biological response electrical, magnetic, or the electromagnetic field should inpour in biological system and make on its impact definitely. Absorbed and refracted energy RCH EMI induces electrical and magnetic fields in biological objects which co-operate with cages and fabrics by means of various mechanisms, depending on frequency, the form and vigour of fields, and also the energy reserved or absorbed biological system [257].

That EMI has led to ionisation, the certain quantity of energy is necessary. The minimum energy of the photon ionising water and atomic Carboneum, hydrogen, nitrogen and oxygen, compounds approximately 10-25 ev. As these atoms represent basic elements of alive organisms, 10 ev it is possible to consider as the inferior limen for ionisation in biological systems. Microwave radiance possesses energy of an order 10-5 ev, thus, RCH EMI a millimetric range is considered as not ionising [8] and too weak to cause a considerable damage to biological moleculas, in particular DNA, a reparation known for its mechanisms.

The general mechanisms of interaction EMI at molecular and cellular level concern: polarisation of connected charges, orientation of constant dipoles and moving of carriers of a free charge [56, 279]. For example, energy dispersion can descend because of losses on orientation of molecular dipoles (including waters) and on the induced oscillatory and gyral locomotions in a molecula [56].

Possible molecular mechanisms of interaction EMP with biological objects are more low considered.

1.2.1.

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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

More on topic possible mechanisms of influence of electromagnetic radiance on cellular frames:

  1. Influence of not ionising microwave radiance of small intensity on cellular and subcellular frames
  2. change of permeability of a cellular membrane under the influence of an electrical and magnetic component of electromagnetic radiance
  3. change of permeability of a cellular membrane under the influence of electromagnetic radiance of a mobile phone
  4. Change of a state of a cellular membrane under the influence of electromagnetic radiance with frequency of 3.7 GHz
  5. biological effects of action of electromagnetic radiance at cellular membrane level
  6. biological effects of action of electromagnetic radiance at level of DNA and a cellular chromatin
  7. influence of electromagnetic radiance on an expression of genes
  8. influence of electromagnetic radiance on proliferatsiju cages and apoptoz
  9. 3.2.1. Change of a state of a chromatin under the influence of electromagnetic radiance of a mobile phone
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  11. the combined influence of electromagnetic radiance and biologically awake bonds onalive organisms.
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  13. Influence of an electrical and magnetic component of electromagnetic radiance on a state of a chromatin and permeability of membranes of cages bukkalnogo an epithelium of the person
  14. the combined influence of weak electromagnetic radiance of a millimetric range and biologically awake bonds on a state of a chromatin and kernels of cages bukkalnogo an epithelium of the person
  15. influence of collateral factors of experiment on a state of a chromatin and permeability of membranes of cages bukkalnogo an epithelium of the person 3.6.1. A water role in retseptsii electromagnetic radiance
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  17. biological effects of action of electromagnetic radiance on ion fluxes
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