A complete experimental format is given for the reconstitution of human hemoglobin from the separated heme-free a-and -globin chains (a', ft') and hemin, by two alternative routes. Based on their oxygen binding properties, the reaction of the ferri-forms with reducing agent, and the response of the oxygen binding curves to pH variation and to the addition of the a losteric effector 2,3-diphosphoglycerate, the molecules are native. One reconstitution route uses direct addition of hemin to the separated globin chains with production of the separated subunits, which can then be recombined and reduced. This procedure occasions losses by precipitation in the heme-addition step except at hig dilutions, and the yields are low. In the second pathway, either globin chain is mixed with the complementary untreated subunit to form the half-filled (with heme) intermediates, which combine stoichiometrically with hemin. No precipitation accompanies these reactions. For a-globin, the yield is about 50% because of incomplete combination with the heme-containing P chain. For -globin, the yield is better than 70%. It is suggested that experiments intended to test either globin chain should use the second route in preparation for structural or functional comparisons with native hemoglobin.In two previous papers (1, 2), we described the preparation and properties of isolated heme-free human globin chains (a", a°) and of two kinds of reassembly intermediates in which both kinds of chains are present but only half of the heme sites are filled (HFa and HFft molecules). The first paper demonstrated that the separated globin chains near neutral pH have different conformations, a" being substantially more disordered than a", in contrast to the separated heme-containing subunits, which are folded similarly, and in contrast also to the heme-free chains when bound together in dimeric apohemoglobin (a°,B°). Moreover, it was shown that, once separated, the globin chains do not readily recombine at neutral pH and accessible temperatures to form apohemoglobin. The second paper demonstrated that if either chain contains a heme, then the complementary chains do specifically recombine. During such a recombination, the disordered a-globin is refolded to the conformation it possesses in apohemoglobin. The coupled binding and refolding was termed an alloplex interactiont, to emphasizethe extensive refolding induced by a neighboring subunit.In future papers on this subject, the kinetics and mechanism of the alloplex interaction and the equilibrium of the HFa and HFB intermediates will be reported. The present paper shows that human hemoglobin can be reconstituted from separated globin chains and hemin by two different routes and that the reconstituted hemoglobin is similar or identical to native hemoglobin with respect to cooperativity in oxygen binding, the Bohr effect, and response to the allosteric effector 2,3-diphosphoglycerate (P-glycerate).In the course of our work on this problem, we found it necessary to modify several of our previous...
