The Unique Hemoglobin System of Pleuragramma antarcticum, an Antarctic Migratory Teleost STRUCTURE AND FUNCTION OF THE THREE COMPONENTS

Pleuragramma antarcticum (suborder Notothenioidei, family Nototheniidae) is the most abundant fish in the antarctic shelf. This pelagic species has a circum-antarctic distribution and is characterized by spawning migration. This species displays the highest multiplicity of major hemoglobins (three);...

Full description

Bibliographic Details
Published in:Journal of Biological Chemistry
Main Authors: Angela Fago, Andreas Kunzmann, Guido di Prisco, Maurizio Tamburrini, Rossana D'Avino, Vito Carratore
Format: Article in Journal/Newspaper
Language:English
Published: 1996
Subjects:
Cell Biology
Molecular Biology
Biochemistry
Antarctic
The Antarctic
Antarc*
Online Access:https://www.openaccessrepository.it/record/93487
https://doi.org/10.1074/jbc.271.39.23780
Description
Summary:Pleuragramma antarcticum (suborder Notothenioidei, family Nototheniidae) is the most abundant fish in the antarctic shelf. This pelagic species has a circum-antarctic distribution and is characterized by spawning migration. This species displays the highest multiplicity of major hemoglobins (three); the other notothenioids have a single one (except one species, having two) with relatively low oxygen affinity regulated by pH and organophosphates. The hemoglobins of P. antarcticum display strong Bohr and Root effects; however, they reveal important functional differences in subunit cooperativity and organophosphate regulation and, above all, in the response of oxygenation to temperature. Despite the substitution ValbetaE11 --> Ile found in Hb 2, which decreases the affinity in human mutants, the hemoglobins have similar oxygen affinity, higher than that of the other notothenioids. Hb 1 has the alpha chain in common with Hb 2 and the beta in common with Hb 3. The amino acid sequence of all four chains has been established. Thus the hematological features of P. antarcticum differ remarkably from those of antarctic notothenioids. This unique and sophisticated oxygen transport system may adequately meet the requirements of the unusual mode of life of this fish.

Similar Items