Geneticists and genetic engineers, who constantly introduce nucleic acids into target cells, have experimentally proven that positive electrization of the external environment of cells increases the permeability of cell membranes to nucleic acids. Moreover, they experimentally found that those nucleic acids that are part of positively charged complexes, mostquickly penetrate into cells. Thus, the practical experience of geneticists and genetic engineers convincingly proves that the positive electrization of both the cellular environment and the objects present in it, increases the permeability of cytoplasmic membranes for the latter. Accordingly, all this suggests that the positive electrization of the internal environment of the human body promotes the penetration of foreign nucleic acids, especially viral, into its cells. Moreover, given the function of extracellular protons in creating a proton motive force that directs glucose into cells, it can be argued that the positive electrization of the external environment of human cells contributes to the reproduction of viruses in them. Accordingly, it can be expected that the negative electrization of the human internal environment should prevent both the penetration of viral nucleic acids into cells, and the reproduction of viruses there. Naturally, all this allows us to offer negative electrization of the air as the most affordable means to combat airborne viral infections. Offering such a means, we expect that the negative electrization of the air that a person inhales will lead to the same electrization of his internal environment, first of all – his respiratory tracts, which are the first to come into contact with viruses contained in the air. The validity of this offer is discussed here.
| Published in | European Journal of Preventive Medicine (Volume 10, Issue 1) |
| DOI | 10.11648/j.ejpm.20221001.17 |
| Page(s) | 34-39 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2022. Published by Science Publishing Group |
Virus, Viral, Invasion, Attachment, Adhesion, Obesity
| [1] | V. V. Lysak (2005) Microbiology. Minsk: Edition of Belarus State University, 261. In Russian. |
| [2] | O. M. Shirokova and M. V. Vedunova (2013) Methods of Genetic Transformation. Nizhny Novgorod: Nizhny Novgorod University Publishing House, 30. In Russian. |
| [3] | Y. Pivovarenko (2018) ± Water: Demonstration of water properties, depending on its electrical potential. World Journal of Applied Physics, 3 (1), 13–18. |
| [4] | Y. Pivovarenko (2019) Biochemical and Physiological Basis for Treating Hydrogen Gas as a Medicine. European Journal of Preventive Medicine, 7 (6), 100–107. |
| [5] | B. V. Nekrasov (1974) Basics of General Chemistry, 1. Moscow: Chemistry, 656. In Russian. |
| [6] | J. E. Spangenberg and T. W. Vennemann (2008) The stable hydrogen and oxygen isotope variation of water stored in polyethylene terephthalate (PET) bottles. Rapid Commun. Mass Spectrom, 22, 672–676. |
| [7] | M. L. Tanzer (2006) Current concepts of extracellular matrix. Journal of Orthopedic Sciences, 11, 326-331. |
| [8] | S. H. Kim, J. Turnbull and S. Guimond (2011) Extracellular matrix and cell signaling: the dynamic cooperation of integrin, proteoglycan and growth factor receptor. Journal of endocrinology, 209, 139–151. |
| [9] | A. D. Theocharis, S. S. Skandalis, C. Gialeli and N. K. Karamanos (2016) Extracellular matrix structure. Advanced Drug Delivery Reviews, 97, 4–27. |
| [10] | R. Singh (2015) A Review of Applications of Polymer Electrets. Advance Physics Letter, 2 (3), 16–20. |
| [11] | Y. Pivovarenko. (2017) The Significance of Positive Electrization on Lifting Force. American Journal of Aerospace Engineering, 4 (6), 59–62. |
| [12] | Y. Pivovarenko (2018) The Nature of the Celestial Elves, Sprites and Jets. Discovery Nature, 12, 1–4. |
| [13] | E. M. Purcell and D. J. Morin (2013) Electricity and Magnetism in BPC, 3rd Edition. Cambridge: Cambridge University Press. 853. |
| [14] | Y. Pivovarenko (2021) The Gulf Stream and the Californian Current as factors affecting the behavior and health of Americans. Journal of Human Physiology, 3 (2), 51–56. |
| [15] | N. Lane (2010) Why Are Cells Powered by Proton Gradients? Nature Education, 3 (9), 18. |
| [16] | N. Lane, J. F. Allen and W. Martin (2010) How did LUCA make a living? Chemiosmosis in the origin of life. Bioassays, 32, 271–280. |
| [17] | L. Taiz and E. Zeiger (2002) Plant Physiology, 3rd ed. Sunderland (UK): Sinauer Associates, Inc., 690. |
| [18] | T. El Bacha, M. R. P. Luiz and A. T. Da Poian (2010) Dynamic Adaptation of Nutrient Utilization in Humans. Cell Origins and Metabolism, Nature Education, 3 (9), 8. |
| [19] | S. Cosnier and M. Holzinger (2014) Towards glucose biofuel cells implanted in human body for powering artificial organs. Electrochemistry Communications, 38, 19–23. |
| [20] | S. Devahastin (2018) Food Microstructure and Its Relationship with Quality and Stability. Wood head Publishing Series in Food Sciences, Technology and Nutrition, 193–216. |
| [21] | Z. A. Shabarova and A. A. Bogdanov (1978) Chemistry of Nucleic Acids and their Components, Moscow: Chemistry, 584. In Russian. |
| [22] | M. Wadman (2020) Why COVID-19 is more deadly in people with obesity – even if they’re young. Science, publication date: September 09 2020. doi: 10.1126/science.abe7010. |
| [23] | Y. Pivovarenko (2021) Electrified Water as a Regulator of Cell Proliferation. Journal of Oncology Research, 3 (1), 1–10. |
| [24] | D. G. Fink and H. W. Beaty (2000) Standard Handbook for Electrical Engineers (14th ed.). NY: McGraw-Hill Companies, Inc. |
| [25] | Y. Pivovarenko (2019) Earth's Electromagnetic Forces and Their Participation in the Creation of Tornadoes. American Journal of Electromagnetics and Applications, 7 (1), 8-12. |
| [26] | F. Yang, L. Y. Ruiming, L. Xiaoxiu, L. Rongan and H. Xiaobo (2020) Hydrogen A Potential New Adjuvant Therapy for COVID-19 Patients. Frontiers in Pharmacology, 11 (543718), 1–5. |
| [27] | Y. Pivovarenko (2019) Arborization of Aqueous Chlorides in Pulsed Electromagnetic Fields as a Justification of Their Ability to Initiate the Formation of New Neuronal Dendrites. International Journal of Neurologic Physical Therapy, 5 (1), 21–24. |
| [28] | M. Marsh and A. Helenius (2006) Virus entry: open sesame. Cell, 124, 720–740. |
| [29] | K. M. Guglielmi, E. M. Johnson, T. Stehle and T. S. Dermody (2006) Attachment and cell entry of mammalian orthoreovirus. Current Topics in Microbiology and Immunology, 309, 1–38. |
| [30] | J. Grove and M. Marsh (2011) The cell biology of receptor-mediated virus entry. Journal of Cell Biology, 195, 1071–1082. |
| [31] | J. Fantini and N. Yahi (2015) Brain Lipids in Synaptic Function and Neurological Disease, Chapter 12. Amsterdam: Elsevier Inc. |
| [32] | M. S. Maginnis (2018) Virus-Receptor Interactions: The Kay to Cellular Invasion. Journal of Molecular Biology, 430 (17), 2590–2611. |
APA Style
Yuri Pivovarenko. (2022). Negative Electrization of Air as a Means of Counteracting Airborne Viral Infections. European Journal of Preventive Medicine, 10(1), 34-39. https://doi.org/10.11648/j.ejpm.20221001.17
ACS Style
Yuri Pivovarenko. Negative Electrization of Air as a Means of Counteracting Airborne Viral Infections. Eur. J. Prev. Med. 2022, 10(1), 34-39. doi: 10.11648/j.ejpm.20221001.17
AMA Style
Yuri Pivovarenko. Negative Electrization of Air as a Means of Counteracting Airborne Viral Infections. Eur J Prev Med. 2022;10(1):34-39. doi: 10.11648/j.ejpm.20221001.17
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Download@article{10.11648/j.ejpm.20221001.17,
author = {Yuri Pivovarenko},
title = {Negative Electrization of Air as a Means of Counteracting Airborne Viral Infections},
journal = {European Journal of Preventive Medicine},
volume = {10},
number = {1},
pages = {34-39},
doi = {10.11648/j.ejpm.20221001.17},
url = {https://doi.org/10.11648/j.ejpm.20221001.17},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ejpm.20221001.17},
abstract = {Geneticists and genetic engineers, who constantly introduce nucleic acids into target cells, have experimentally proven that positive electrization of the external environment of cells increases the permeability of cell membranes to nucleic acids. Moreover, they experimentally found that those nucleic acids that are part of positively charged complexes, mostquickly penetrate into cells. Thus, the practical experience of geneticists and genetic engineers convincingly proves that the positive electrization of both the cellular environment and the objects present in it, increases the permeability of cytoplasmic membranes for the latter. Accordingly, all this suggests that the positive electrization of the internal environment of the human body promotes the penetration of foreign nucleic acids, especially viral, into its cells. Moreover, given the function of extracellular protons in creating a proton motive force that directs glucose into cells, it can be argued that the positive electrization of the external environment of human cells contributes to the reproduction of viruses in them. Accordingly, it can be expected that the negative electrization of the human internal environment should prevent both the penetration of viral nucleic acids into cells, and the reproduction of viruses there. Naturally, all this allows us to offer negative electrization of the air as the most affordable means to combat airborne viral infections. Offering such a means, we expect that the negative electrization of the air that a person inhales will lead to the same electrization of his internal environment, first of all – his respiratory tracts, which are the first to come into contact with viruses contained in the air. The validity of this offer is discussed here.},
year = {2022}
}
TY - JOUR T1 - Negative Electrization of Air as a Means of Counteracting Airborne Viral Infections AU - Yuri Pivovarenko Y1 - 2022/02/25 PY - 2022 N1 - https://doi.org/10.11648/j.ejpm.20221001.17 DO - 10.11648/j.ejpm.20221001.17 T2 - European Journal of Preventive Medicine JF - European Journal of Preventive Medicine JO - European Journal of Preventive Medicine SP - 34 EP - 39 PB - Science Publishing Group SN - 2330-8230 UR - https://doi.org/10.11648/j.ejpm.20221001.17 AB - Geneticists and genetic engineers, who constantly introduce nucleic acids into target cells, have experimentally proven that positive electrization of the external environment of cells increases the permeability of cell membranes to nucleic acids. Moreover, they experimentally found that those nucleic acids that are part of positively charged complexes, mostquickly penetrate into cells. Thus, the practical experience of geneticists and genetic engineers convincingly proves that the positive electrization of both the cellular environment and the objects present in it, increases the permeability of cytoplasmic membranes for the latter. Accordingly, all this suggests that the positive electrization of the internal environment of the human body promotes the penetration of foreign nucleic acids, especially viral, into its cells. Moreover, given the function of extracellular protons in creating a proton motive force that directs glucose into cells, it can be argued that the positive electrization of the external environment of human cells contributes to the reproduction of viruses in them. Accordingly, it can be expected that the negative electrization of the human internal environment should prevent both the penetration of viral nucleic acids into cells, and the reproduction of viruses there. Naturally, all this allows us to offer negative electrization of the air as the most affordable means to combat airborne viral infections. Offering such a means, we expect that the negative electrization of the air that a person inhales will lead to the same electrization of his internal environment, first of all – his respiratory tracts, which are the first to come into contact with viruses contained in the air. The validity of this offer is discussed here. VL - 10 IS - 1 ER -
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