Abstract
A generalization of the Szabo-Karplus statistical mechanical model for hemoglobin cooperativity is formulated. The model fits the available thermodynamic and spectroscopic data with assumptions that are consistent with structural results and empirical energy function calculations. It provides a mechanism of hemoglobin cooperativity that is a generalization of the proposals of Monod, Wyman, and Changeux and of Perutz. The role of nonsalt-bridge related sources of constraints on ligand affinity and the mode of salt-bridge coupling to tertiary-quaternary structural changes are examined within the framework of the model. Analysis of proton release data for a range of pH values indicates that a pH-independent part of cooperativity must be present. The pH dependence of the first and last Adair constants point to partial linkage of salt bridges to ligation in the deoxy state and to a destabilized intra-beta-chain salt bridge in the unliganded oxy state.
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