Studies of oxygen transport in pregnant mammals show that the O 2 -saturation curves of fetal and maternal blood are markedly different when measured under the same conditions. Fetal erythrocytes...

Studies of oxygen transport in pregnant mammals show that the O₂

-saturation curves of fetal and maternal blood are markedly different when measured under the same conditions. Fetal erythrocytes contain a
structural variant of hemoglobin, HbF, consisting of two α and two γ subunits (α2 γ2 ), whereas maternal erythrocytes contain HbA (α2β2
).
(a) Which hemoglobin has a higher affinity for oxygen under physiological conditions, HbA or HbF? Explain.
(b) What is the physiological significance of the different O₂
affinities?
(c) When all the BPG is carefully removed from samples of HbA and HbF, the measured O₂
-saturation curves (and consequently the O₂
affinities) are displaced to the left. However, HbA now has a greater affinity for oxygen than does HbF. When BPG is reintroduced, the O₂
-saturation curves return to normal, as shown in the graph. What is the effect of BPG on the O₂
affinity of hemoglobin? How can the above information be used to explain the different O₂
affinities of fetal and maternal hemoglobin?