The rise and fall of Hox gene clusters

doi:10.1242/dev.001065

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Development ePress online publication date 6 Jun 2007
doi: 10.1242/dev.001065

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The rise and fall of Hox gene clusters

Denis Duboule^*
^* Author for correspondence (e-mail: Denis.Duboule{at}zoo.unige.ch)

Although all bilaterian animals have a related set of Hox genes,the genomic organization of this gene complement comes in differentflavors. In some unrelated species, Hox genes are clustered;in others, they are not. This indicates that the bilaterianancestor had a clustered Hox gene family and that, subsequently,this genomic organization was either maintained or lost. Remarkably,the tightest organization is found in vertebrates, raising theembarrassingly finalistic possibility that vertebrates havemaintained best this ancestral configuration. Alternatively,could they have co-evolved with an increased 'organization'of the Hox clusters, possibly linked to their genomic amplification,which would be at odds with our current perception of evolutionarymechanisms? When discussing the why's and how's of Hox geneclustering, we need to account for three points: the mechanismsof cluster evolution; the underlying biological constraints;and the developmental modes of the animals under consideration.By integrating these parameters, general conclusions emergethat can help solve the aforementioned dilemma.

"See my son,here time becomes space" Gurnemanz, in Parsifal (R. Wagner)

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