Project description:Carboxylicivirga litoralis strain:A043 Genome sequencing and assembly

Project description:Carboxylicivirga linearis strain:FB218 Genome sequencing and assembly

Project description:Carboxylicivirga sediminis strain:JR1 Genome sequencing and assembly

Project description:Carboxylicivirga mesophila strain:JCM 18290 Genome sequencing and assembly

Project description:Carboxylicivirga taeanensis strain:MEBiC 08903 Genome sequencing

Project description:Carboxylicivirga sp. M1479 Genome sequencing and assembly

Project description:Carboxylicivirga sp. overview

Project description:The bacteria Cobetia marina is globally distributed in different oceanic ecosystems and is able to grow in a wide range of temperatures from 0°C to 41°C, with an optimal growth temperature close to 35°C. Its remarkable characteristics include its ability to form biofilm, produce biosurfactants, and use petroleum-derived hydrocarbons as energy and carbon source. In this context, Cobetia marina is a model for biofilm production and the production of diverse biomolecules of relevance for human and animal health, as well as for environmental protection and recovery. This dataset shows the differential expression of genes and gene regulatory circuits that explain the adaptation of Cobetia marina to different temperatures, serving as a model of evolution in response to selection pressures such as temperature changes in the marine environment. In this study, Cobetia marina was grown at 16°C, 35°C, 38°C, and 41°C to establish differential gene expression using high-throughput RNA sequencing.

Project description:This dataset contains the transcriptome sequence of Zostera marina as produced by Illumina sequencing. Four tissues were sequenced, female flower in late and early stages of development, the male flower, the root and leaf tissue.

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.