The system models and the buffering capacity of erythrocyte membrane surroundings in relation to protons, formed in the membrane redoxy potential three state dependent 9 stepped full cycle of proton conductance in the human body

International Journal of Development Research

Volume: 
12
Article ID: 
26168
4 pages
Research Article

The system models and the buffering capacity of erythrocyte membrane surroundings in relation to protons, formed in the membrane redoxy potential three state dependent 9 stepped full cycle of proton conductance in the human body

Ambaga, M., Tumen-Ulzii, A. and Buyantushig, T

Abstract: 

By our suggestion, the buffering capacity of erythrocyte membrane surroundings in relation to free protons, formed in the first 1-7 stages of proton conductance have implemented within Eight stage of 9 staged full closed cycle of proton conductance -located in theRespiring tissues -capillary blood which are existed around 87 trillion cells,Pulmonary circuit, where occurred oxygen unloadingunder effect of increased bicarbonate exit by bicarbonate/chloride ion shift mechanism, leading to increase of protons released from NADH, FADH,reduced KoQ resulting to entry of protons to erythrocyte membrane surroundings, all these processes described as the presence of protons from peripheral tissues favors the formation of salt bridges by protonating the terminal His residue of the betta subunits, an increase in protons causes oxygen release, while an increase in oxygen causes protonrelease,the hydrogen ions (protons) tend to displace the oxygen from the hemoglobin,protons promote oxygen unloading, which are inseparable parts– basic components of the System models of the Human body , including the membrane redoxy potential three state dependent 9 stepped full cycle of proton conductance and the four compartments, also the 10 functional systems, and four types of cells, distinguished by difference of proton conductance.

DOI: 
https://doi.org/10.37118/ijdr.26168.01.2023
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