1). Comparing transcriptomes of whole bodies and larvae of P. pollicipes could Galunisertib in vitro contribute to the understanding of the complexity of their ontogenetic adaptation to a sessile mode of life and the evolution of cement proteins in cirripeds. EST generation and identification of specific genes of P. pollicipes provide a more general understanding of these crustaceans.
The only small number of genes that could be functionally annotated in this study indicates that our knowledge about goose barnacle physiology and biological processes is insufficient. The analysis of the fraction of identified unigenes already highlights a large number of genes that are of interest for future research concerning protein evolution (with focus on cement gland proteins) and physiology (involving adaptational and ontogenetic processes). We thank Iago F. Meilán for computer
support. This work was funded by a CTM2007-62034 grant from the Spanish government (Ministerio de Educación y Ciencia) and, a 10MMA103008PR grant by Xunta de Galicia. A. Perina was supported by a scholarship from Ministerio de Economía y Competitividad, Subprograma de Formación de Personal Investigador (FPI) (Spain). B.M. von Reumont was funded by the German Science Foundation (DFG grants: RE 3454/1-1 and RE 3454/1-2). “
“Despite the global economic and environmental importance of salmon, genomic Y-27632 mouse resources for the study of these anadromous fishes are limited. Here we use RNA-Seq to characterize the transcriptome of steelhead (ocean-going Oncorhynchus mykiss). The use of next-generation platforms for de novo sequencing of transcriptomes has been repeatedly demonstrated to be suitable for marker and gene discovery, comparative analysis, and gene expression analysis. For example, high throughput sequencing has been used for transcriptome assembly and annotation in several fishes including sea bream, guppy, Atlantic cod, mud loach, and rainbow
trout ( Calduch-Giner et al., 2013, Fraser et al., 2011, Johansen et al., 2011, Long et al., 2013 and Salem et al., 2010). Rainbow trout and steelhead are different life-history forms of the same species (O. mykiss), however, the freshwater-resident rainbow trout and ocean-going steelhead differ behaviorally, Epothilone B (EPO906, Patupilone) phenotypically, and physiologically ( Hale et al., 2013 and Hayes et al., 2012). In 2010, a 454-based transcriptome was published for rainbow trout ( Salem et al., 2010), but no transcriptome data are currently available for steelhead. The aim of this study was to assemble, annotate, and analyze a high quality reference transcriptome that will enable researchers to assess gene expression levels, conduct comparative analyses, and identify and utilize molecular markers in the anadromous O. mykiss steelhead. The steelhead for this study were collected from the Hood River, in Oregon.