Project description:We exposed N. vectensis to three forms of trauma (streptomycin, cytochalasin D, or calcium-free seawater) to determine differences in gene expression during recovery from the trauma. Gene expression was monitored during different time points of recovery for animals exposed to cytochalasin D or calcium-free seawater. Gene expression was monitored following designated times of exposure and after 1 hour of recovery for animals exposed to streptomycin.
Project description:To test whether elevated CO2 , which drives seawater below pH 7.9, would shift the dynamical expression patterns diatoms in a more natural environment, we designed a controlled mesocosm study at Friday Harbor Laboratories (FHL) Ocean Acidification Environmental Laboratory (OAEL). Briefly, four independent mesocosm tanks were set up with continuous flow (10-12 mL/min) of filtered seawater from the Puget Sound to simulate mid-century (pH 7.9) and acidified oceanic conditions (pH 7.6) in duplicate. Mesocosm reservoirs were supplemented with nutrients and inoculated with T. pseudonana acclimated in FHL seawater. Mesocosms were outfitted with custom enclosures to simulate a 12:12 light:dark diel cycle. Cells for RNA extraction were sampled in the middle of the light and dark cycle and sequenced on Illumina NextSeq 500 platform.
Project description:The marine teleost intestine plays a vital role in whole body salt and water homeostasis. Marine fish must drink seawater in order to rehydrate, and processing of that seawater throughout the gastrointestinal tract allows for the extraction of water from this highly hyperosmotic source. Although the molecular mechanisms of this process have been the subject of much investigation, numerous questions remain. Here, Gulf toadfish (Opsanus beta) were acclimated to normal seawater (35 ppt) of hypersaline seawater (60 ppt) and changes in the anterior intestine, posterior intestine, and intestinal fluid proteomes were investigated using a shotgun proteomics approach employing isobaric TMT tags.
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:Biomineralization is a naturally occurred process, by which microorganism reduced mental ions to minerals. Bacteria-driven biomineralization is most applied in metal recycling or environmental governance, the biomineralized products are rarely used. This probably due to the attachments of microorganism derived components on minerals, such as proteins, which are treated as impurities and hard to remove. However, these microorganism generated molecules are potent in activation of immune systems, suggesting promising potentials of biomineralized products in developing immunotherapeutic strategies. In this research, we analyzed the protein components on DH5a Escherichia coli produced gold nanoparticles, to explored the generation process of gold nanoparticles in bacterial cells, as well as its immune adjuvant potentials.
Project description:16s RNA gene sequencing data from seawater, bed sediment and steel corrosion samples from Shoreham Harbour, UK, collected to allow bacterial species comparisons between microbially influenced corrosion, the surrounding seawater, and the sea bed sediment at the seafloor and 50cm depth below seafloor.
Project description:Interventions: Case series:N/A
Primary outcome(s): Serum immune cytokines;Blood immune cells;SCFAs of bacterial metabolites;Gut microbial genomics;Metabolic function of intestinal microorganism
Study Design: Sequential
