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Abstract
To date 88 abnormal hemoglobins have been described with altered oxygen affinities. Of these, 60 variants have high affinity and 28 have low affinity. Twenty-six of these abnormal hemoglobins are chemically unstable. Twenty-seven of the high affinity hemoglobins are associated with erythrocytosis. An equal number are not associated with increased red cell mass. Anemia has been reported with 13 of the low affinity variants; however, the primary cause of the anemia of many may be the concurrent chemical instability. A strong correlation can be shown for stable variants with altered oxygen affinity between the P50 value of the red cell and the hemoglobin concentration of the affected individual's blood.
Hemoglobin variants with altered oxygen affinity can be classified into groups depending upon the amino acid change in specific structural sites. The sites include subunit interfaces, heme contacts, central cavity, DPG binding site, C-terminus, and other external and internal residues.
Functional studies of six abnormal hemoglobins, four at the β101 residue in the central cavity near the α1β2 interface, one near the DPG binding site and one at the C-terminus of the β chain, indicate that the exact explanation of the structure-function relationship in hemoglobin depends upon the specific residue that is altered and the chemical properties of the substituted group. Comparative studies of multiple variants of the same position should provide insight into the role of critical residues in the binding of oxygen by hemoglobin.
