Buffer systems often have a specific ph range they are most effective in Telomere extension may affect the immune system's ability to recognize and eliminate cells with long telomeres, potentially compromising immune surveillance For example, enzymes require specific ph levels to function effectively to catalyze reactions
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Anything beyond or under that range will render the buffer system ineffective to changes in hydroxide or hydronium disturbances.
Introduction the body regulates blood ph to stay within a narrow range of 7.35 to 7.45
Fluctuations outside of this range can be detrimental to cellular processes Enzymatic function can be hindered at suboptimal ph ranges, leading to cellular death. Several stresses such as changes in ph or temperature, exercise, irradiation, pathogens infection, reproduction/breeding efforts, exposure to chemicals or psychological pressure, among others,. Buffers are substances that resist changes in ph by either donating or accepting hydrogen ions (h⁺) as necessary
This ability is vital in biological systems, where even small deviations in ph can have drastic effects on cellular function. Red blood cells play an important role in the removal of excess hydrogen ions in the body This is achieved by a carbonic acid/hydrogencarbonate buffering system. In contrast to the intracellular and blood ph, interstitial fluid ph can easily be reduced by acid stress
This can disturb homeostasis of the intracellular metabolism, leading to the development of metabolic diseases.
This can affect the measurement of telomeres While several methods exist to measure telomere length, they are more suitable for general screening purposes than providing highly precise or detailed results.
