Differential evolution of the 13 Atlantic salmon Hox clusters.

@article{Mungpakdee2008DifferentialEO,
  title={Differential evolution of the 13 Atlantic salmon Hox clusters.},
  author={Sutada Mungpakdee and H C Seo and Anna Rita Angotzi and Xianjun Dong and Altuna Akalin and Daniel Chourrout},
  journal={Molecular biology and evolution},
  year={2008},
  volume={25 7},
  pages={
          1333-43
        }
}
Hox cluster organization represents a valuable marker to study the effects of recent genome duplication in salmonid fish (25-100 Mya). Using polymerase chain reaction amplification of cDNAs, BAC library screening, and genome walking, we reconstructed 13 Hox clusters in the Atlantic salmon containing 118 Hox genes including 8 pseudogenes. Hox paralogs resulting from the genome duplication preceding the radiation of ray-finned fish have been much better preserved in salmon than in other model… 
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All Hox gene clusters of Pantodon buchholzi, a member of the early branching teleost subdivision Osteoglossomorpha, are characterized and the term “tetralogy” is used to describe the homology relationship which exists between duplicated sequences which originate through a shared WGD but which diploidize into distinct paralogs from a common allelic pool independently in two lineages following speciation.
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Increasing amounts of data from a wider variety of species are illuminating more about the nature of the Hox cluster deep in animal ancestry, as well as revealing the evolutionary flexibility and derivations along present-day lineages.
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A survey of the transcriptome of the Hox gene clusters of a shark shows that the high complexity observed in mammals is a gnathostome ancestral feature.
Hox clusters of the bichir (Actinopterygii, Polypterus senegalus) highlight unique patterns of sequence evolution in gnathostome phylogeny.
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The results suggest that actinopterygian Hox gene clusters experienced a reduction in selective constraints that surprisingly predates the teleost-specific genome duplication.
Hox genes of the Japanese eel Anguilla japonica and Hox cluster evolution in teleosts.
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A PCR-based survey of Hox genes in the Japanese eel revealed that the Hox cluster evolved distinctly in different teleost lineages, whereas crown teleosts lost one cluster (HoxCb or HoxDb).
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