Project description:To elucidate the modulatory participation of miRNAs in mollusk biomineralization, we have employed high-throughput sequencing to identify miRNAs of pearl oyster, Pinctada fucata. Our study focused on the miRNA expression profile of the mantle, an organ responsible for shell formation of the oyster. The pearl oysters were cultured in the tank with the maintaining conditions of temperature 19 ℃, PH 8.1 and salinity 33‰ in recirculating seawater.

Project description:In order to screen and identify biomineralization gene, microarray technique was used to reveal tissues specific expression genes in the brunet mantle edge (ME), mantle centre (MC), and both ME and MC (ME-MC) from assembled transcriptome contigs of Pinctada fucata martensii, ideal pearl oyster for the study of biomineralization. Tissues of ME, MC, hepatopancreas, foot, gill, adductor muscle, heart and intestine were sampled from two females and one male pearl oyster. Gonad was sampled from above three individuals and another two male and one female. Equal amount RNA of each individual hepatopancreas, foot, gill, adductor muscle, heart and intestine were mixed as a composite viscera sample (CV), and equal amount gonad RNA from one male and one female were combined together as a gonad sample (GS). Hybridizations were performed with twelve samples of ME, MC, CV and GS.

Project description:In order to screen and identify biomineralization gene, microarray technique was used to reveal tissues specific expression genes in the brunet mantle edge (ME), mantle centre (MC), and both ME and MC (ME-MC) from assembled transcriptome contigs of Pinctada fucata martensii, ideal pearl oyster for the study of biomineralization. Tissues of ME, MC, hepatopancreas, foot, gill, adductor muscle, heart and intestine were sampled from two females and one male pearl oyster. Gonad was sampled from above three individuals and another two male and one female. Equal amount RNA of each individual hepatopancreas, foot, gill, adductor muscle, heart and intestine were mixed as a composite viscera sample (CV), and equal amount gonad RNA from one male and one female were combined together as a gonad sample (GS). Hybridizations were performed with twelve samples of ME, MC, CV and GS. Gene expression in ME, MC, gonad and other tissues were measured. Gonads were sampled from 6 individuals, and other tissues were sampled from above three individuals.

Project description:Nacre, the iridescent material found in pearls and shells of molluscs, is formed through an extraordinary process of matrix-assisted biomineralization. Despite recent advances, many parts of the biomineralization process and its evolutionary origin remain a mystery. The pearl oyster Pinctada fucata martensii is a well-known master of biomineralization, but the molecular mechanisms underlie its production of remarkable shells and pearls is not fully understood. We sequenced the highly polymorphic genome of the pearl oyster and conducted multi-omic and biochemical studies to probe nacre formation. We identified a large set of novel proteins participating in matrix-framework formation, many in expanded families, including components similar to that found in vertebrate bones such as collagen-related VWA-containing proteins (VWAP), chondroitin sulfotransferases and regulatory elements.Considering that there are only collagen-based matrices in vertebrate bones and chitin-based matrices in most invertebrate skeletons, the presence of both chitin and elements of collagen-based matrices in nacre matrices suggests that elements of chitin- and collagen-based matrices are deeply rooted and might be part of an ancient biomineralizing matrix. Our results expand the current shell matrix-framework model and provide new insights into the evolution of diverse biomineralization systems.

Project description:RNA-seq of the pearl oyster Pinctada fucata

Project description:Small RNA sequencing of Akoya pearl oyster (Pinctada fucata)

Project description:This SuperSeries is composed of the following subset Series: GSE13980: Analysis of the global gene expression profile for pearl oyster, Pinctada maxima, exposed to organotin (tributyltin) GSE14303: Differential expression analysis of genes from the mantle tissue of pearl oyster: Pinctada maxima GSE14305: The microstructural, mineralogical and transcriptional developments of shell biomineralization of Pinctada maxima Refer to individual Series

Project description:Shells of pearl oyster are natural biominerals with remarkable properties and can be repaired after damage, which are regulated by biomacromolcules especially shell matrix proteins (SMPs). Identifying SMPs is critical for further understanding the process. Although proteomic methods have been used to reveal the complex protein mixture in mature shells, the proteomics of repaired shells after shell damage have not been reported before. Here, we studied the SMPs of the repaired shells (prismatic layers) 5-10 days after shell damage in Pinctada fucata by integrating transcriptomics and proteomics and compared the microstructure difference between repaired and mature shells. Although the repaired shells are calcite, similar to mature shells, the microstructure of repaired shells has holes in the center of prisms with irregular and curved edges. In total, we found 49 SMPs from the repaired shells including some proteins only existing in mature nacreous layers. Peroxidase-like protein and beta-N-acetylhexosaminidase may be important players in repaired shells. In addition, they have the capability to affect CaCO3 crystallization process in vitro, altering the packing and reducing the crystallinity of crystals. This study could improve our understanding of shell repair process and lay the foundation for studying SMPs-controlled biomineralization.

Project description:Gene expression profiles during larval development for pearl oyster, Pinctada fucata

Project description:Haplotype-phased genome of the pearl oyster Pinctada fucata (Alternate pseudohaplotype)