Project description:Mediterranean mussels are a worldwide spread bivalve species with extraordinary biological success. One of the reasons of this success could be the reproduction strategy of bivalves, characterized by the presence of trochophore larvae. Larval development in bivalves has been a topic of raising interest in the scientific community but it deserves much more attention. The principal objective of this work was to study the transcriptomic profile of the ontogeny of M. galloprovincialis analyzing the gene expression in different developmental stages, from oocytes to seed. For this purpose, after conducting a 454 sequencing of transcriptome of mussel hemocytes, adult tissues and larvae, a new DNA microarray comprising sequences of was designed and developed. The studied developmental stages: unfertilized oocytes, veliger (3 days post fertilization; dpf) and pediveliger (20dpf) larvae, settled juveniles (25dpf) and seed (30dpf), showed very different transcriptomic profiles and clustered in groups defining their characteristic gene expression along ontogeny.

Project description:This SuperSeries is composed of the following subset Series: GSE22915: Mussel (Mytilus galloprovincialis) digestive gland tissue: gene expression profiles across an annual cycle GSE23049: Mytilus galloprovincialis: development of female gonads GSE23050: Mytilus galloprovincialis: development of male gonads GSE23051: Mytilus galloprovincialis: differences between male and female gene expression patterns in gonads (mantle tissue) Refer to individual Series

Project description:Mytilus galloprovincialis overview

Project description:Sperm contains essential proteins for interaction with eggs, however, there are only several sperm proteins reported with important role in fertilization, and gamete proteomics are limited in marine invertebrate species. We present here a sperm proteomic profile of marine mussel Mytilus galloprovincialis. There are 816 proteins were successfully identified by LC-MS/MS based on 1-DE SDS-PAGE. Many of the identifications are relevant to sperm cell physiology and mtDNA functioning. The results will contribute to better understand the proteins involved in fertilization in M. galloprovincialis, as well as the other marine invertebrate species.

Project description:Mytilus galloprovincialis Genome sequencing

Project description:Mytilus galloprovincialis Genome sequencing

Project description:Mytilus galloprovincialis Genome Survey

Project description:Mytilus galloprovincialis developmental transcriptome

Project description:Mytilus galloprovincialis Genome sequencing

Project description:Mytilus galloprovincialis Raw sequence reads