Making very similar embryos with divergent genomes: conservation of regulatory mechanisms of Otx between the ascidians Halocynthia roretzi and Ciona intestinalis

doi:10.1242/dev.01707

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Development ePress online publication date 2 Mar 2005
doi: 10.1242/dev.01707

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Research article

Making very similar embryos with divergent genomes: conservation of regulatory mechanisms of Otx between the ascidians Halocynthia roretzi and Ciona intestinalis

Izumi Oda-Ishii, Vincent Bertrand, Isao Matsuo, Patrick Lemaire, and Hidetoshi Saiga^*
^* Author for correspondence (e-mail: saiga-hidetoshi{at}c.metro-u.ac.jp)

Ascidian embryos develop with a fixed cell lineage into simpletadpoles. Their lineage is almost perfectly conserved, evenbetween the evolutionarily distant species Halocynthia roretziand Ciona intestinalis, which show no detectable sequence conservationin the non-coding regions of studied orthologous genes. To addresshow a common developmental program can be maintained withoutdetectable cis-regulatory sequence conservation, we comparedin both species the regulation of Otx, a gene with a sharedcomplex expression pattern. We found that in Halocynthia, theregulatory logic is based on the use of very simple cell line-specificregulatory modules, the activities of which are conserved, inmost cases, in the Ciona embryo. The activity of each of theseenhancer modules relies on the conservation of a few repeatedcrucial binding sites for transcriptional activators, withoutobvious constraints on their precise number, order or orientation,or on the surrounding sequences. We propose that a combinationof simplicity and degeneracy allows the conservation of theregulatory logic, despite drastic sequence divergence. The regulationof Otx in the anterior endoderm by Lhx and Fox factors may evenbe conserved with vertebrates.

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