Project description:Metagenomic, Metatranscriptomic and Metviriomic analysis of samples collected at four time points during a single day at the Gulf of Aqaba in the Red Sea.

Project description:Seasonal and diel patterns of bacteriophages in the Red Sea

Project description:Aqaba Gulf in the Red Sea metagenome

Project description:Metabolism, cell cycle stages, and related transcriptomes in eukaryotic algae change with the diel cycle of light availability. In the unicellular red alga Cyanidioschyzon merolae, the S and M phases occur at night. To examine how diel transcriptomic changes in metabolic pathways are related to the cell cycle and to identify all genes, for which mRNA levels change depending on the cell cycle, we examined diel transcriptomic changes in C. merolae. In addition, we compared transcriptomic changes between the wild type and transgenic lines, in which the cell cycle was uncoupled from the diel cycle by the depletion of either cyclin-dependent kinase A (CDKA) or retinoblastoma-related (RBR) protein. Of 4,775 nucleus-encoded genes, the mRNA levels of 1,979 genes exhibited diel transcriptomic changes in the wild type. Of these, the periodic expression patterns of 454 genes were abolished in the transgenic lines, suggesting that the expression of these genes is dependent on cell cycle progression. The periodic expression patterns of most metabolic genes, except those involved in starch degradation and de novo dNTP synthesis, were not affected in the transgenic lines, indicating that the cell cycle and transcriptomic changes in most metabolic pathways are independent of the diel cycle. Approximately 40% of the cell–cycle–dependent genes were of unknown function, and approximately 19% of these genes of unknown function are shared with the green alga Chlamydomonas reinhardtii. The dataset presented in this study will facilitate further studies on the cell cycle and its relationship with metabolism in eukaryotic algae.

Project description:Proteomic measurements from cyanobacteria colonies picked from the Gulf of Aqaba (Red Sea); analyzed to reveal interaction of cyanobacteria Trichodesmium and its taxonomically diverse microbial community partners. Samples were digested with trypsin, fractionated, and analyzed by LC-MS/MS. Data was searched with MS-GF+ using PNNL's DMS processing pipeline against a metagenomics FASTA file sequenced at JGI.

Project description:WEC diel study using 454 metagenonic and metatranscriptomic sequencing

Project description:Red Sea mesopelagic prokaryotic diversity

Project description:NifH Gulf Of aqaba

Project description:Red Sea coral metatranscriptomes

Project description:Red Sea coral metagenomes