Molecular mechanisms of wound healing and regeneration of siphon in the Manila clam Ruditapes philippinarum revealed by transcriptomic analysis.

Abstract

Ruditapes philippinarum is an economically important marine shellfish aquaculture species, and it has the ability to regenerate its siphons. To gain a greater understanding of the molecular mechanisms at work during siphon regeneration and to provide evidence for morphological regeneration, we examined transcriptome responses of siphon tissue of R. philippinarum during regeneration and observed regenerative siphons under the stereomicroscope. The overall process of siphon regeneration was dissected based on the morphological changes of siphon and the identification of up-regulated key differentially expressed genes (DEGs). The protein biosynthesis and metabolism played important roles in wound healing and siphon regeneration of R. philippinarum. Transcriptomic analysis identified the Wnt and TGF-β signaling pathways by focusing on the function and expression pattern of genes in these pathways during siphon regeneration. In addition, we carried out a genome-wide identification and phylogenetic analysis of TGF-β superfamily in R. philippinarum. The expression profiles of the TGF-β superfamily genes were analyzed in eight adult tissues (adductor muscle, mantle, foot, gill, siphon, digestive gland, gonad, and labial palp) and regenerative siphon. This study shed light on the process of morphological regeneration and regenerative mechanism of siphon of R. philippinarum.