Abstract

The mechanisms driving innovations that distinguish large taxons are poorly known and essentially accessible via a candidate gene approach. A spectacular acquisition by tunicate larvaceans is the house, a complex extracellular filtration device. Its components are secreted by the oikoplastic epithelium which covers the animal trunk. Here we describe the development of this epithelium in larvae through the formation of specific cellular territories known to produce distinct sets of house proteins (Oikosins). It involves cell divisions and morphological differentiation but very limited cell migration. A diverse set of homeobox genes, most often duplicated in the genome, are transiently and site-specifically expressed in the trunk epithelium at early larval stages. Using RNA interference, we show that two prop duplicates are involved in the differentiation of a region on and around the dorsal midline, regulating morphology and the production of a specific oikosin. Our observations favor a scenario in which multiple homeobox genes and most likely other developmental transcription factors were recruited for this innovation. Their frequent duplications probably predated, but were not required for the emergence of the house.

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