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:To elucidate how does the gene expression profiles of whole transcriptome of P.fucata response to seawater acidification and warming, we have employed microarray as a tool to identify gene responses in these stress.The pearl oysters were added into the tanks with the maintaining conditions of temperature 25 °C and 31 °C, acidity pH7.8 and pH7.5, salinity 33‰ in recirculating seawater. The temperatures and pH values in the studies were near future levels and predicted for 2100 and 2300.

Project description:Pteria penguin Transcriptome or Gene expression

Project description:We have got a yellow shell variety of Pinctada fucata martensii after years of artificial breeding. To identify differentially expressed genes between yellow shell and normal black shell pearl oysters, we performed label-free proteomic analyses by LC-MS using mantle edge tissues.

Project description:The winged pearl oyster, Pteria penguin, is a widely distributed and economically important bivalve with unique and primitive byssus. The byssogensis of this species is largely unknown. Here we report the lable free quantification analysis on different tissues of P. penguin.Through the analysis, we found that the process of byssogenesis requires ATP to provide energy among the differential proteins; and seven (Tenascin-X, laminin, papilin, fibrillin-1, spondin, protease inhibitors and Mucins) of the 31 proteins identified in the byssus were derived from ECM. Functions of extracellular matrix proteins can be correlated with the formation and the nature of the byssus.

Project description:To assess the diurnal gene expression in gills of oyster Crassotrea gigas, gills of 6 oysters were pooled and analyzed by RNa-seq every 4h for 52h (i.e. 13 sampling times). This procedure was executed simultaneously for control oysters fed with the non-harmful algae Heterocapsa triquetra (H.t condition), and for oysters fed with the harmful algae Alexandrium minutum (A.m condition) (L:D 9:15). Alexandrium minutum exposure led to a remodeling of the cycling transcriptome in gills of Crassostrea gigas.

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:Metatranscriptome analysis of experimentally infected pearl oysters with summer atrophy

Project description:The interplay between phenotypic plasticity and adaptive evolution has long been an important topic of evolutionary biology. This process is critical to our understanding of a species evolutionary potential in light of rapid climate changes. Despite recent theoretical work, empirical studies of natural populations, especially in marine invertebrates, are scarce. In this study, we investigated the relationship between adaptive divergence and plasticity by integrating genetic and phenotypic variation in Pacific oysters from its natural range in China. Genome resequencing of 371 oysters revealed unexpected fine-scale genetic structure that is largely consistent with phenotypic divergence in growth, physiology, thermal tolerance and gene expression across environmental gradient. These findings suggest that selection and local adaptation are pervasive and together with limited gene flow shape adaptive divergence. Plasticity in gene expression is positively correlated with evolved divergence, indicating that plasticity is adaptive and likely favored by selection in organisms facing dynamic environments such as oysters. Divergence in heat response and tolerance implies that the evolutionary potential to a warming climate differs among oyster populations. We suggest that trade-offs in energy allocation are important to adaptive divergence with acetylation playing a role in energy depression under thermal stress.

Project description:This SuperSeries is composed of the following subset Series: GSE13478: Pearl millet seedlings treated with methyl jasmonate (MeJA) GSE13479: Pearl millet seedlings infected with rust (Puccinia substriata) GSE13480: Pearl millet seedlings treated with salicylic acid (SA) Refer to individual Series