Royer W E, Knapp J E, Strand K, Heaslet H A
Dept of Biochemistry and Molecular Pharmacology, University of Massachusetts Medical School, 55 Lake Avenue North, Worcester, MA 01655, USA.
Trends Biochem Sci. 2001 May;26(5):297-304. doi: 10.1016/s0968-0004(01)01811-4.
Assembly of hemoglobin subunits into cooperative complexes produces a remarkable variety of architectures, ranging in oligomeric state from dimers to complexes containing 144 hemoglobin subunits. Diverse stereochemical mechanisms for modulating ligand affinity through intersubunit interactions have been revealed from studies of three distinct hemoglobin assemblages. This mechanistic diversity, which occurs between assemblies of subunits that have the same fold, provides insight into the range of regulatory strategies that are available to protein molecules.
血红蛋白亚基组装成协同复合物会产生多种多样的结构,其寡聚状态从二聚体到含有144个血红蛋白亚基的复合物不等。通过对三种不同的血红蛋白组装体的研究,揭示了通过亚基间相互作用调节配体亲和力的多种立体化学机制。这种机制多样性发生在具有相同折叠的亚基组装体之间,为深入了解蛋白质分子可用的调控策略范围提供了线索。