Project description:Marine bacterium isolated from the Sargasso Sea

Project description:Marine bacterium isolated from the Sargasso Sea

Project description:Marine bacterium isolated from the Sargasso Sea

Project description:Marine bacterium from the Sargasso Sea

Project description:Marine bacterium from the Sargasso Sea

Project description:Marine bacterium from the Sargasso Sea

Project description:Marine bacterium from the Sargasso Sea

Project description:Vibrio species represent one of the most diverse genera of marine bacteria known for their ubiquitous presence in natural aquatic systems. Several members of this genus including Vibrio harveyi are receiving increasing attention lately because they are becoming a source of health problems, especially for some marine organisms widely used in sea food industry. To learn about adaptation changes triggered by V. harveyi during its long-term persistence at elevated temperatures, we studied adaptation of this marine bacterium in sea water microcosms at 30 oC that closely mimicks the upper limits of sea surface temperatures recorded around the globe.

Project description:Seawater exposure to the gram negative marine bacterium Vibrio diazotrophicus induces a robust cellular response in sea urchin larvae that includes the migration of pigment cells to the gut epithelium, changes in cell behavior and altered gut morphology (Ho et al., 2016; PMID 27192936). To investigate the transcriptional underpinnings of this response, whole transcriptome sequencing was performed on mRNA isolated from larval samples collected at 0, 6, 12 and 24 hr of exposure to V. diazotrophicus. The morphological simplicity of the sea urchin larva provides a systems-level model for identifying biologically relevant transcriptional state changes in response to dysbiosis in the gut lumen.

Project description:This marine bacterium was isolated from the Sargasso Sea at a depth of 10 meters.