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MBE Advance Access originally published online on June 22, 2007
Molecular Biology and Evolution 2007 24(9):1982-1990; doi:10.1093/molbev/msm127
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© The Author 2007. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Research Articles

The {alpha}D-Globin Gene Originated via Duplication of an Embryonic {alpha}-Like Globin Gene in the Ancestor of Tetrapod Vertebrates

Federico G. Hoffmann and Jay F. Storz

School of Biological Sciences, University of Nebraska, Lincoln

E-mail: jstorz2{at}unl.edu.

Accepted for publication June 18, 2007.

Gene duplication is thought to play an important role in the co-option of existing protein functions to new physiological pathways. The globin superfamily of genes provides an excellent example of the kind of physiological versatility that can be attained through the functional and regulatory divergence of duplicated genes that encode different subunit polypeptides of the tetrameric hemoglobin protein. In contrast to prevailing views about the evolutionary history of the {alpha}-globin gene family, here we present phylogenetic evidence that the {alpha}A- and {alpha}D-globin genes are not the product of a single, tandem duplication of an ancestral globin gene with adult function in the common ancestor of extant birds, reptiles, and mammals. Instead, our analysis reveals that the {alpha}D-globin gene of amniote vertebrates arose via duplication of an embryonic {alpha}-like globin gene that predated the radiation of tetrapods. The important evolutionary implication is that the distinct biochemical properties of {alpha}D-hemoglobin (HbD) are not exclusively derived characters that can be attributed to a post-duplication process of neofunctionalization. Rather, many of the distinct biochemical properties of HbD are retained ancestral characters that reflect the fact that the {alpha}D-globin gene arose via duplication of a gene that had a larval/embryonic function. These insights into the evolutionary origin of HbD illustrate how adaptive modifications of physiological pathways may result from the retention and opportunistic co-option of ancestral protein functions.

Key Words: hemoglobin • gene duplication • alpha-D globin • neofunctionalization • molecular phylogenetics • gene family evolution

William Jeffery, Associate Editor


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