Background Deer mice (Peromyscus maniculatus) that are native to high altitudes in the Rocky Mountains have evolved hemoglobins with an increased oxygen- binding affinity relative to those of lowland conspecifics. To elucidate the molecular mechanisms responsible for the evolved increase in hemoglobin- oxygen affinity, the crystal structure of the highland hemoglobin variant was solved and compared with the previously reported structure for the lowland variant. Results Highland hemoglobin yielded at least two crystal types, in which the longest axes were 507 and 230 angstrom. Using the smaller unit cell crystal, the structure was solved at 2.2 angstrom resolution. The asymmetric unit contained two tetrameric hemoglobin molecules. Conclusions The analyses revealed that aPro50 in the highland hemoglobin variant promoted a stable interaction between aHis45 and heme that was not seen in the alpha His50 lowland variant. The alpha Pro50 mutation also altered the nature of atomic contacts at the alpha(1)beta(2)/alpha(2)beta(1) intersubunit interfaces. These results demonstrate how affinity- altering changes in intersubunit interactions can be produced by mutations at structurally remote sites.

• 出版日期2017-3-31