, 2005). Analysis of the assembled sequences revealed 1,136,186 genes with 99.3% annotated as protein coding from Oil-MG-1 and 843,676 genes with 99% annotated as protein coding from Oil-MG-3. A total of 788,331 of the protein coding genes, corresponding to 69.9% of the total predicted protein-coding genes from Oil-MG-1 and 583,785 of the protein coding genes, corresponding to 69.9% of the total predicted protein-coding
genes from Oil-MG-3, were assigned to a putative family or function based on the presence of conserved Pfam domains with the remaining genes annotated as hypothetical proteins. A summary of the assembly statistics and of the features of the assembled metagenomes is provided in Table 1 and Table 2. Sequences and annotation results as well as tools for further analysis of these metagenomes are publicly available in NCBI’s SRA under the accession numbers SRX560108 and SRX559946 and learn more at IMG/M under the Taxon IDs 3300001750 and 3300001749 for Oil-MG-1 and Oil-MG-3 respectively. MHess and ERH and the work performed in the laboratory PR-171 of MHess were funded by Washington State University. The work conducted by the U.S. Department of Energy Joint Genome Institute was supported by
the Office of Science of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. Work conducted by JAG was supported by the U.S. Dept. of Energy under Contract No.DE-AC02-06CH11357. We are extremely thankful to our colleagues who provided letters of support for our Community Sequencing Program proposal. Additional thanks go to Matt Ashby and Ulrika Lidstrom at Taxon and staff members of the Chemical and Biological Process Development Group – in particular David Culley,
Jon Magnuson, Kenneth Bruno, Jim Collett and Scott Baker – and members of the Microbial Community Initiative – in particular Allan Konopka, Jim Fredrickson and Steve Lindeman – at PNNL for scientific discussions throughout the project. Ponatinib “
“The Atlantic halibut (Hippoglossus hippoglossus) is a commercially important species, which due to historic overfishing and its high value is being developed as an aquaculture species. However there are currently issues in the efficient and successful supply of healthy juveniles for aquaculture production due to difficulties particularly in the first feeding stages and abnormal development during metamorphosis. Examples of such developmental problems include abnormal pigmentation (albinism, ambicoloration or mosaicism), failed migration of the left eye and skeletal deformities (reviewed in Power et al., 2008). Although the Atlantic halibut has been the subject of several traditional EST projects (Bai et al., 2007 and Douglas et al., 2007) and more recently Next Generation analyses into microRNAs (Bizuayehu et al., 2012 and Bizuayehu et al.