Abstract
BackgroundMytilus species are important in marine ecology and in environmental quality assessment, yet their molecular biology is poorly understood. Molecular aspects of their reproduction, hybridisation between species, mitochondrial inheritance, skewed sex ratios of offspring and adaptation to climatic and pollution factors are priority areas.Methodology/Principal FindingsTo start to address this situation, expressed genetic transcripts from M. galloprovincialis were pyrosequenced. Transcripts were isolated from the digestive gland, foot, gill and mantle of both male and female mussels. In total, 175,547 sequences were obtained and for foot and mantle, 90% of the sequences could be assembled into contiguous fragments but this reduced to 75% for the digestive gland and gill. Transcripts relating to protein metabolism and respiration dominated including ribosomal proteins, cytochrome oxidases and NADH dehydrogenase subunits. Tissue specific variation was identified in transcripts associated with mitochondrial energy metabolism, with the digestive gland and gill having the greatest transcript abundance. Using fragment recruitment it was also possible to identify sites of potential small RNAs involved in mitochondrial transcriptional regulation. Sex ratios based on Vitelline Envelop Receptor for Lysin and Vitelline Coat Lysin transcript abundances, indicated that an equal sex distribution was maintained. Taxonomic profiling of the M. galloprovincialis tissues highlighted an abundant microbial flora associated with the digestive gland. Profiling of the tissues for genes involved in intermediary metabolism demonstrated that the gill and digestive gland were more similar to each other than to the other two tissues, and specifically the foot transcriptome was most dissimilar.ConclusionsPyrosequencing has provided extensive genomic information for M. galloprovincialis and generated novel observations on expression of different tissues, mitochondria and associated microorganisms. It will also facilitate the much needed production of an oligonucleotide microarray for the organism.
Highlights
The common blue mussels belong to the Mytilus genus (M. edulis, M. galloprovincialis, M. trossulus), are found world-wide and play a significant role in coastal ecology
PCR products were analysed on a 2% agarose gel yielding species-specific bands at 180 base-pairs for M. edulis, obtained from the Firth of Clyde and run as a control, and 126 bp for the animals from Port Quin and M. galloprovincialis
The gender of animals was ascertained by determination of the sex-specific expression of Vitelline Envelope Receptor Lysine (VERL) and Vitelline Coat Lysine (VCL) transcripts in mantle and the ratio of male to female animals was similar
Summary
The common blue mussels belong to the Mytilus genus (M. edulis, M. galloprovincialis, M. trossulus), are found world-wide and play a significant role in coastal ecology. The Mytilidea are a subject of much continuing research, there are many aspects of their biology which require elucidation For instance they show species-selective distribution patterns: In general, M. edulis is found in Northern latitudes (e.g. Scotland, Northern/Mid England) while M. galloprovincialis is found further south (e.g. parts of predominantly Southern England, Atlantic France and the Mediterranean) [1,2,3]. The distribution is mosaic, with hybridisation occurring between species at the boundaries of each range [1] It is not clear what controlling factors maintain the separate populations. Mytilus species are important in marine ecology and in environmental quality assessment, yet their molecular biology is poorly understood Molecular aspects of their reproduction, hybridisation between species, mitochondrial inheritance, skewed sex ratios of offspring and adaptation to climatic and pollution factors are priority areas
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