Project description:Here we have compared adult wildtype (N2) C. elegans gene expression when grown on different bacterial environments/fod sources in an effort to model naturally occuring nematode-bacteria interactions at the Konza Prairie. We hypothesize that human-induced changes to natural environments, such as the addition of nitrogen fertalizer, have effects on the bacterial community in soils and this drives downstream changes in the structure on soil bacterial-feeding nematode community structure. Here we have used transcriptional profiling to identify candidate genes involved in the interaction of nematodes and bacteria in nature.
2009-05-02 | GSE15923 | GEO
Project description:Microbial community structure of mangrove sediment
| PRJNA767529 | ENA
Project description:Microbial community structure of mangrove sediment
| PRJNA771507 | ENA
Project description:Bisphenol A contaminated mangrove sediment community structure
Project description:we used high-throughput Illumina Genome Analyzer IIx (GAIIx) technology to sequence the small RNA transcriptomes of the mangrove species, Avicennia marina. Based on sequence similarity or the secondary structure of precursors, we have identified 193 conserved miRNAs and 26 novel miRNAs in the small RNA transcriptome of Avicennia marina.
Project description:Commensal bacteria can manipulate the proliferation, differentiation, and survival of intestinal epithelial cells. Hindlimb unloading alters the composition and structure of the microbial community. To further characterize the epithelial changes, we performed a genome-wide microarray analysis of colon epithelium isolated from HU and control mice.