Project description:RNA virosphere associated with a marine zooplankton community in the subtropical western North Pacific

Project description:According to the present theories, in nutrient-repleted conditions diatoms should not be affected by turbulence. We made laboratory experiments to demonstrate that two chain forming diatoms sense and respond to turbulence by varying their chain length spectra and tuning their metabolism. We compared transcriptomes of turbulence-exposed cells with still conditions and analyzed the effects.

Project description:Marine microbial community in the western North Pacific

Project description:western subarctic pacific ocean metagenomic data

Project description:Sequencing the metatranscriptome can provide information about the response of organisms to varying environmental conditions. We present a methodology for obtaining random whole-community mRNA from a complex microbial assemblage using Pyrosequencing. The metatranscriptome had, with minimum contamination by ribosomal RNA, significant coverage of abundant transcripts, and included significantly more potentially novel proteins than in the metagenome. Keywords: metatranscriptome, mesocosm, ocean acidification This experiment is part of a much larger experiment. We have produced 4 454 metatranscriptomic datasets and 6 454 metagenomic datasets. These were derived from 4 samples. The experiment is an ocean acidification mesocosm set up in a Norwegian Fjord in 2006. We suspended 6 bags containing 11,000 L of sea water in a Coastal Fjord and then we bubbled CO2 through three of these bags to simulate ocean acidification conditions in the year 2100. The other three bags were bubbled with air. We then induced a phytoplankton bloom in all six bags and took measurements and performed analyses of phytoplankton, bacterioplankton and physiochemical characteristics over a 22 day period. We took water samples from the peak of the phytoplankton bloom and following the decline of the phytoplankton bloom to analyses using 454 metagenomics and 454 metatranscriptomics. Day 1, High CO2 Bag and Day 1, Present Day Bag, refer to the metatranscriptomes from the peak of the bloom. Day 2, High CO2 Bag and Day 2, Present Day Bag, refer to the metatranscriptomes following the decline of the bloom. Obviously High CO2 refers to the ocean acidification mesocosm and Present Day refers to the control mesocosm. Raw data for both the metagenomic and metatranscriptomic components are available at NCBI's Short Read Archive at ftp://ftp.ncbi.nlm.nih.gov/sra/Studies/SRP000/SRP000101

Project description:Northeast subarctic Pacific Ocean Metagenome

Project description:North Pacific Subtropical Gyre eukaryotic plankton metatranscriptome sequencing

Project description:Western North Pacific Ocean Prokaryotes

Project description:Community structure of Archaea in the western North Pacific and the Arctic Ocean

Project description:Diatoms are single celled photosynthetic bloom-forming algae that are responsible for at least 20% of global primary production. Nevertheless, more than 30% of the oceans are considered “ocean deserts” due to iron limitation. We used the diatom Phaeodactylum tricornutum as a model system to explore diatom’s response to iron limitation and its interplay with susceptibility to oxidative stress. By analyzing physiological parameters and proteome profiling, we defined two distinct phases: short-term (< 3 days, phase I) and chronic (> 5 days, phase II) iron limitation. While at phase I no changes in physiological parameters were observed, molecular markers for iron starvation, such as ISIP and flavodoxin, were highly upregulated. At phase II, down regulation of numerous iron-containing proteins was detected in parallel to reduction in growth rate, chlorophyll content, photosynthetic activity, respiration rate and antioxidant capacity. Intriguingly, while application of oxidative stress to phase I and II iron limited cells similarly oxidized the GSH pool, phase II iron limitation exhibited transient resistance to oxidative stress, despite the down regulation of many antioxidant proteins. By comparing proteomic profiles of P. tricornutum under iron limitation and metatranscriptomic data of an iron enrichment experiment conducted in the Pacific Ocean, we propose that iron limited cells in the natural environment resemble the phase II metabolic state. These results provide insights into the trade-off between maximal growth rate and susceptibility to oxidative stress as a possible key determinant in the response of diatoms to iron quota in the marine environment.