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P50 (pressure)

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(Redirected from P50 (biochemistry)) Chemistry term for pressure For other uses, see P50 (disambiguation).

In biochemistry, p50 represents the partial pressure of a gas required to achieve 50% saturation of a particular protein's binding sites. Values of p50 are negatively correlated with substrate affinity; lower values correspond to higher affinity and vice versa. The term is analogous to the Michaelis–Menten constant (KM), which identifies the concentration of substrate required for an enzyme to achieve 50% of its maximum reaction velocity.

The concept of p50 is derived from considering the fractional saturation of a protein by a gas. Imagine myoglobin, a protein which is able to bind a single molecule of oxygen, as per the reversible reaction below, whose equilibrium constant K (which is also a dissociation constant, since it describes a reversible association-dissociation event) is equal to the product of the concentrations (at equilibrium) of free myoglobin and free oxygen, divided by the concentration of myoglobin-oxygen complex.

Mb + O 2 Mb O 2 {\displaystyle {\ce {Mb+O_{2}<=>Mb\cdot O_{2}}}}
K = [ Mb ] [ O 2 ] [ Mb O 2 ] {\displaystyle {\ce {\it {{K}={\rm {\frac {}{}}}}}}}

The fractional saturation YO2 of the myoglobin is what proportion of the total myoglobin concentration is made up of oxygen-bound myoglobin, which can be rearranged as the concentration of free oxygen over the sum of that concentration and the dissociation constant K. Since diatomic oxygen is a gas, its concentration in solution can be thought of as a partial pressure.

Y O 2 = [ M b O 2 ] [ M b ] + [ M b O 2 ] [ O 2 ] K + [ O 2 ] p O 2 K + p O 2 {\displaystyle Y_{O_{2}}={\rm {{\frac {}{+}}\Rightarrow {\rm {{\frac {}{\it {{K}\,{\rm {+\,}}}}}\Rightarrow {\rm {\frac {\it {p{\rm {O_{2}}}}}{\it {{K}\,{\rm {+\,{\it {p{\rm {O_{2}}}}}}}}}}}}}}}}

From defining the p50 as the partial pressure at which the fractional saturation is 50%, we can deduce that it is in fact equal to the dissociation constant K.

p 50 K + p 50 = 0.5 p 50 = K {\displaystyle {\frac {p_{50}}{K+p_{50}}}=0.5\Rightarrow p_{50}=K}

For example, myoglobin's p50 for O2 is 130 pascals while the P50 for adult hemoglobin is 3.5 kPa. Thus, when O2 partial pressure is low, hemoglobin-bound O2 is more readily transferred to myoglobin. Myoglobin, found in high concentrations in muscle tissue, can then transfer the oxygen to muscle tissue muscle fibers, where it will be used in the generation of energy to fuel muscle contraction. Another example is that of human fetal hemoglobin, which has a higher affinity (lower P50) than adult hemoglobin, and therefore allows uptake of oxygen across the placental diffusion barrier.

References

  1. P 50 – definition of P 50 in the Medical dictionary – by the Free Online Medical Dictionary, Thesaurus and Encyclopedia. Medical-dictionary.thefreedictionary.com. Retrieved on 2013-10-22.
  2. Oxygen/Hemoglobin Archived 2010-05-23 at the Wayback Machine. Lexingtonpulmonary.com. Retrieved on 2013-10-22.
  3. Bailleul, C; Borrelly-Villereal, MC; Chassaigne, M; Ropars, C (2001). "Modification of partial pressure of oxygen (P50) in mammalian red blood cells by incorporation of an allosteric effector of hemoglobin". Biotechnol. Appl. Biochem. 11 (1): 31–40. doi:10.1111/j.1470-8744.1989.tb00049.x. PMID 2706089. S2CID 19110159.
  4. Widmaier, Eric P.; Raff, Hershel; Strang, Kevin T. (2019). Vander's Human Physiology: The Mechanisms of Body Function (15th ed.). New York, NY: McGraw Hill. p. 469. ISBN 978-1-259-90388-5.
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