Roll of Temperature in Living Systems Analysed Using the Resonant Recognition Model

Roll of Temperature in Living Systems Analysed Using the Resonant Recognition Model

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Author(s)

Author(s): Irena Cosic, Drasko Cosic

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DOI: 10.18483/ijSci.2316 34 157 40-44 Volume 9 - Apr 2020

Abstract

Temperature plays some significant role in biological processes. Electromagnetic energy could be related to temperature. Here, we have established the relationship between temperature role in living biological processes and Resonant Recognition Model, which proposes that proteins specific biological activity is based on electromagnetic resonant energy transfer.

Keywords

Biological Temperature, Bioelectromagnetism, Resonant Recognition Model

References

  1. Cosic I. Macromolecular Bioactivity: Is it Resonant Interaction between Macromolecules? -Theory and Applications. IEEE Trans on Biomedical Engineering. 1994; 41:1101-1114.
  2. Cosic I. Virtual spectroscopy for fun and profit. Biotechnology. 1995; 13:236-238.
  3. Cosic I. The Resonant Recognition Model of Macromolecular Bioactivity: Theory and Applications. Basel: Birkhauser Verlag. 1997.
  4. Wikipedia. Wien’s Displacement Law. 2018.
  5. Walker J. Fundamentals of Physics. 8th ed. John Wiley and Sons. 2008; 891.
  6. Cosic I, Cosic D, Lazar K. Is it possible to predict electromagnetic resonances in proteins, DNA and RNA?. Nonlinear Biomedical Physics. 2015; 3, doi: 10.1140/s40366-015-0020-6.
  7. Cosic I, Cosic D, Lazar K. Environmental Light and Its Relationship with Electromagnetic Resonances of Biomolecular Interactions, as Predicted by the Resonant Recognition Model. International Journal of Environmental Research and Public Health. 2016; 13(7):647, doi: 10.3390/ijeprh13070647.
  8. Cosic I, Cosic D, Lazar K. Analysis of Tumor Necrosis Factor Function Using the Resonant Recognition Model. Cell Biochemistry and Biophysics. 2015; 11, doi: 10.1007/s12013-015-0716-3.
  9. Vojisavljevic V, Pirogova E, Cosic I. The Effect of Electromagnetic Radiation (550nm-850nm) on I-Lactate Dehydrogenase Kinetics. Internat J Radiat Biol. 2007; 83:221-230.
  10. Dotta BT, Murugan NJ, Karbowski LM, Lafrenie RM, Persinger MA. Shifting wavelength of ultraweak photon emissions from dying melanoma cells: their chemical enhancement and blocking are predicted by Cosic’s theory of resonant recognition model for macromolecules. Naturwissenschaften. 2014; 101(2), doi: 10.1007/s00114-013-1133-3.
  11. Murugan NJ, Karbowski LM, Persinger MA. Cosic’s Resonance Recognition Model for Protein Sequences and Photon Emission Differentiates Lethal and Non-Lethal Ebola Strains: Implications for Treatment. Open Journal of Biophysics. 2014; 5:35.
  12. Karbowski LM, Murugan NJ, Persinger MA. Novel Cosic resonance (standing wave) solutions for components of the JAK-STAT cellular signalling pathway: A convergence of spectral density profiles. FEBS Open Bio. 2015; 5:245-250.
  13. Cosic I, Cosic D. The Treatment of Crigler-Najjar Syndrome by Blue Light as Explained by Resonant Recognition Model. EPJ Nonlinear Biomedical Physics. 2016; 4(9), doi: 10.1140/epjnbp/s40366-016-0036-6.
  14. Gomes-Alves P, Neves S, Coelho AV, Penque D. Low Temperature Restoring Effect on F508del-CFTR Misprocessing: A Proteomic Approach. J Proteomics. 2009; 73(2):218-230, doi: 10.1016/j.jprot.2009.09.001.
  15. Wilke M, Bot A, Jorna H, Scholte BJ, de Jonge HR. Rescue of Murine F508del CFTR Activity in Native Intestine by Low Temperature and Proteasome Inhibitors. PLOSOne,.2012; doi: 10.1371/journal.pone.0052070.
  16. Rennolds J, Boyaka PN, Bellis SL, Cormet-Boyaka E. Low Temperature Induces the Delivery of Mature and Immature CFTR to the Plasma Membrane. Biochemical and Biophysical Research Communications. 2008; 366(4):1025-1029, doi: 10.1016/j.bbrc.2007.12.065.
  17. Cosic I, Paspaliaris V, Cosic D. Biophysical Insights into Cystic Fibrosis Based on Electromagnetic Resonances in CFTR Proteins. International Journal of Sciences. 2019; 8(9):1-8, doi: 10.18483/ijSci.2148.
  18. Yatsu R, Miyagawa S, Kohno S, Saito S, Lowers RH, Ogino Y, Fukuta N, Katsu Y, Ohta Y, Tominaga M, Guilete LJ Jr, Iguchi T. TRPV4 Assocaites Environmental Temperature and Sex Determination in the American Alligator. Scientific Reports. 2015; 5:18581, doi: 10.1038/srep18581.
  19. Wang HY, Fu JCM, Lu PJ. Hyperthermia Stress Activates Heat Shock Protein Expression via Propyl Isomerase 1 Regulation with Heat Shock Factor 1. Mol Cell Biol. 2013; 33(24):4889-4899.

Cite this Article:

International Journal of Sciences is Open Access Journal.
This article is licensed under a Creative Commons Attribution 4.0 International (CC BY 4.0) License.
Author(s) retain the copyrights of this article, though, publication rights are with Alkhaer Publications.

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