Monomer shift assay to examine interactions of mutant α globins with β globin. (A) IEF (pH 6-8) of purified and in vitro-synthesized WT hemoglobins. (Left panel) Hemoglobins purified from human blood were fractionated by IEF and stained with Coomassie blue. Each lane contains 10 μg of purified protein. (Right panel) WT 35S-α globin was synthesized by TNT with CN-hemin present and then unlabeled oxygenated β Hb subunit (20 nM final concentration) with or without HbA (5 μg = 3.1 μM final concentration in 25 μL) were added. The mixtures were fractionated by IEF and 35S-labeled α globin complexes were detected by autoradiography. pH markers and the positions of purified hemoglobins are indicated on the left. As described in the text, purified α globin (lanes 2 and 6) migrates slightly faster than TNT-synthesized 35S-α globin (lane 7) probably the result of posttranslational modification(s) that are specific to the TNT reaction. Also note that addition of excess HbA drives 35S-α globin-β globin dimers into mixed HbA tetramers, which have a slightly lower pI than the αβ dimers (compare lanes 8 and 9). (B) WT and mutant 35S-radiolabeled α globins were synthesized by TNT with CN-hemin present, and then unlabeled oxygenated β Hb subunit (20 nM) was added. The mixtures were fractionated by IEF (pH 6-8) and radiolabeled α globin (either free or in the context of α1β1 heterodimers) was visualized by autoradiography. (−) indicates no β globin added; and (+), β globin added.