Journal Article

Daphnia pulex didomain hemoglobin: structure and evolution of polymeric hemoglobins and their coding genes.

S Dewilde, M L Van Hauwaert, K Peeters, J Vanfleteren and L Moens

in Molecular Biology and Evolution

Published on behalf of Society for Molecular Biology and Evolution

Volume 16, issue 9, pages 1208-1218
Published in print January 1999 | ISSN: 0737-4038
Published online January 1999 | e-ISSN: 1537-1719 | DOI: https://dx.doi.org/10.1093/oxfordjournals.molbev.a026211
Daphnia pulex didomain hemoglobin: structure and evolution of polymeric hemoglobins and their coding genes.

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The high-molecular-weight extracellular hemoglobin of Daphnia pulex is composed of at least three different didomain globin chains. The primary structure of one of these chains was determined at the protein and cDNA levels. Each globin domain of the polypeptide chain displays the standard structural characteristics. The first domain is preceded by a 30-residue extension containing an 18-residue unprecedented threonine-rich segment and a 12-residue preA segment which is homologous to the preA segments of other nonvertebrate globin chains. Both domains are linked together by a preA' segment, which is homologous to other preA segments and lacks the threonine-rich segment. Dimerization of the globin chains by the formation of a disulphide bridge linking the unique cysteines near the amino-termini results in a covalent, vertebrate-like tetradomain structure. The flexible amino-terminal extension most likely facilitates dimerization. The gene coding for this globin chain is interrupted by six small introns. Each domain displays two intradomain introns at the conserved positions B12.2 and G7.0. A precoding intron occurs at position preA(-27.0) and a bridge intron at occurs preA'(-13.2). We propose a crossover event as the most likely mechanism for duplication. Arthropod globin trees reflect the added effects of gene diversification, gene duplication, and species evolution. The position of monodomain intracellular globins in the tree suggests that they resemble the ancestral globin more than the derived didomain extracellular globins do.

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Subjects: Evolutionary Biology ; Molecular and Cell Biology

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