Transcriptomic landscape of posterior regeneration in the annelidPlatynereis dumerilii

Author:

Paré Louis,Bideau LoïcORCID,Baduel Loeiza,Dalle Caroline,Benchouaia Médine,Schneider Stephan Q.ORCID,Laplane LucieORCID,Clément YvesORCID,Vervoort MichelORCID,Gazave EveORCID

Abstract

AbstractBackground:Restorative regeneration, the capacity to reform a lost body part following amputation or injury, is an important and still poorly understood process in animals. Annelids, or segmented worms, show amazing regenerative capabilities, and as such are a crucial group to investigate. Elucidating the molecular mechanisms that underpin regeneration in this major group remains a key goal. Among annelids, the nereididaePlatynereis dumerilii(re)emerged recently as a front-line regeneration model. Following amputation of its posterior part,Platynereisworms can regenerate both differentiated tissues of their terminal part as well as a growth zone that contains putative stem cells. While this regeneration process follows specific and reproducible stages that have been well characterized, the transcriptomic landscape of these stages remains to be uncovered.Results:We generated a high qualityde novoReference transcriptome for the annelidPlatynereis dumerilii. To do so, we produced and analyzed three RNA-sequencing datasets, encompassing five stages of posterior regeneration, along with blastema stages and non-amputated tissues as controls. We included these regeneration RNA-seq datasets, as well as embryonic and tissue-specific datasets from the literature to produce a Reference transcriptome. We used this Reference transcriptome to perform in depth analyzes of RNA-seq data during the course of regeneration to reveal the important dynamics of the gene expression, process with thousands of genes differentially expressed between stages, as well as unique and specific genes expression at each regeneration stage. The study of these genes highlighted the importance of the nervous system at both early and late stages of regeneration, as well as the enrichment of RNA-binding proteins (RBPs) during almost the entire regeneration process.Conclusions:In this study, we provided a high-qualityde novoReference transcriptome for the annelidPlatynereisthat is useful for investigating various developmental processes, including regeneration. Our extensive stage-specific transcriptional analysis during the course of posterior regeneration shed light upon major molecular mechanisms and pathways, and will foster many specific studies in the future.

Publisher

Cold Spring Harbor Laboratory

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