Transcriptomes of a fast-developing chordate uncover drastic differences in transcription factors and localized maternal RNA composition compared with those of ascidians.

The larvacean Oikopleura dioica is a fast-developing chordate because of its small number of cells (∼4500 in juveniles) and rapid development to complete morphogenesis by 10 h after fertilization. Strikingly, most of its blastomeres are restricted to give rise to a single cell-type by the 32-cell stage of embryogenesis, unlike cell fate determination at the 110-cell stage in ascidians. In this study, RNA-sequencing (RNA-seq) revealed non-canonical properties of O. dioica: (1) an initial zygotic gene expression of 950 genes at the 16- to 32-cell stage; (2) 25 transcription factors (TFs) are expressed in the 32-cell stage (fewer than half of the TFs underlying gene regulatory networks in ascidian embryogenesis were lost or not expressed); (3) five maternal mRNAs localized in the vegetal-posterior blastomeres in animal and vegetal hemispheres; and (4) three maternal mRNAs localized in the small vegetal pole region of unfertilized eggs. These observations indicate that this fast-developing chordate lacks the first phase of development in ascidians: fertilization-driven ooplasmic movements that drive postplasmic RNAs toward the vegetal pole. These data have been deposited in ANISEED (https://www.aniseed.fr/) as transcriptome resources.