Abstract
Tetrameric hemoglobins (Hbs) are prototypical systems for the investigations of fundamental properties of proteins. Although the structure of these proteins has been known for nearly sixty years, there are many aspects related to their function/structure that are still obscure. Here, we report the crystal structure of a carbonmonoxy form of the Hb isolated from the sub-Antarctic notothenioid fish Eleginops maclovinus characterised by either rare or unique features. In particular, the distal site of the α chain results to be very unusual since the distal His is displaced from its canonical position. This displacement is coupled with a shortening of the highly conserved E helix and the formation of novel interactions at tertiary structure level. Interestingly, the quaternary structure is closer to the T-deoxy state of Hbs than to the R-state despite the full coordination of all chains. Notably, these peculiar structural features provide a rationale for some spectroscopic properties exhibited by the protein in solution. Finally, this unexpected structural plasticity of the heme distal side has been associated with specific sequence signatures of various Hbs.
Highlights
Tetrameric hemoglobins (Hbs) are prototypical systems for the investigations of fundamental properties of proteins
The structure of Hb has been known for approximately sixty years[7,8], it is still a subject of considerable interest[6,9]. This is related to the fact that Hb has been, and still is, one of the prototypical systems for investigating basic structure-function relationships in proteins
We have undertaken the biochemical and biophysical characterization of the Hb isolated from the sub-Antarctic notothenioid fish Eleginops maclovinus (Hb1Em) that lives in the Beagle Channel surrounding the Tierra del Fuego (Argentina) by experiencing temperature ranges from 4 °C to 10 °C32
Summary
Tetrameric hemoglobins (Hbs) are prototypical systems for the investigations of fundamental properties of proteins. The quaternary structure is closer to the T-deoxy state of Hbs than to the R-state despite the full coordination of all chains These peculiar structural features provide a rationale for some spectroscopic properties exhibited by the protein in solution. This unexpected structural plasticity of the heme distal side has been associated with specific sequence signatures of various Hbs. The superfamily of globins includes proteins that are ubiquitous in a variety of different living organisms, from bacteria to higher eukaryotes, where they perform key functions essentially related to their ability to bind gaseous ligands[1,2,3]. These novel crystallographic data provide some insights into Hb1Em functional properties as well as into the structural basis of some spectroscopic features that are common to the entire Hb superfamily
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