SEM observation of early shell formation and expression of biomineralization-related genes during larval development in the pearl oyster Pinctada fucata

Abstract

Shell formation of Pinctada fucata in larval development stages plays a crucial role in their survival. Scanning electron microscopy (SEM) was used to observe the morphological changes during larval development. We found that the early shell forms soon after enlargement of the blastopore at the anterior end of the trochophore stage and the complete shell forms in the spats stage, required for metamorphosis of P. fucata. Based on our transcriptome data of trochophore, D-shaped, umbonal, eyespots and spats stages, including the whole process of shell formation, 93 differentially expressed biomineralization-related genes were identified, of which 25 genes were unique to P. fucata, 30 were identical to genes in pacific oyster, and the remaining genes were annotated to other species. Two-dimensional and three-dimensional principal components analysis (PCA) showed that different developmental stages were significantly different, with the early two stages exhibiting a larger difference compared with the next stages. The 93 genes were sorted into 20 trends with three trends being significantly enriched: an initial increase and then a decrease, a monotonic decrease, and a monotonic increase. Gene expression patterns changed with regulatory function during shell formation. Almost all the biomineralization-related genes were up-regulated in the D-shaped stage, but only five genes were up-regulated in that stage but down-regulated in the remaining stages. There were also 11 genes up-regulated in the last three stages, and a total of 24 genes showed high expression level during the last four stages. The 55 genes selected for shell incision experiment sorted into five trends and most genes presented differences in expression between 24 h and other time points. Considering all these results, there is a correlation with the morphological change and the expression of biomineralization-related genes during larval developmental stages, especially of differently expressed genes.