Project description:Exiguobacterium profundum overview

Project description:Exiguobacterium profundum strain:TSS-3 Genome sequencing

Project description:Exiguobacterium profundum PHM 11 Transcriptome analysis under different salt (NaCl) concentration

Project description:Exiguobacterium undae 190-11 Genome sequencing and assembly

Project description:Exiguobacterium sp. 8-11-1 Genome sequencing and assembly

Project description:Here we report the massively parallel cDNA sequencing (RNA-seq) analysis performed using high throughput sequencing of wild type (DB110) and toxR (TW30) mutant strains of the deep-sea bacterium Photobacterium profundum. ToxR is a transmembrane DNA-binding protein first discovered in Vibrio cholerae and able to regulate numerous genes involved in virulence. In P. profundum the abundance and activity of the same protein is influenced by hydrostatic pressure and is able to regulate genes in a pressure-dependent manner. To better characterize the ToxR regulon, we have compared the genes differentially expressed in response to pressure changes with those whose expression is altered between wild type and toxR mutant strains.

Project description:P. profundum SS9 strain cells were grown at two different temperatures 4°C and 16°C. RNA extracted from the two different cultures was labelled with Cy5 and Cy3 and competitively hybridized on the same slide.

Project description:Several microorganisms have wide temperature growth range and versatility to tolerate large thermal fluctuations in diverse environments. To better understand thermal adaptation of psychrotrophs, Exiguobacterium sibiricum strain 255-15 was used, a psychrotrophic bacterium that grows from -5°C to 39°C. Its genome is approximately 3 Mb in size, has a GC content of 47.7% and includes 2,978 putative protein-encoding genes (CDS). The genome and transcriptome analysis along with the organism's known physiology was used to better understand its thermal adaptation. A total of about 27%, 3.2% and 5.2% of E. sibiricum strain 255-15 CDS spotted on the DNA microarray yielded differentially expressed genes in cells grown at -2.5°C, 10°C and 39°C, respectively, when compared to cells grown at 28°C. The hypothetical and unknown genes represented 10.6%, 0.89% and 2.3% of the CDS differentially expressed when grown at -2.5°C, 10°C and 39°C versus 28°C. The transcriptome analyses showed that E. sibiricum is constitutively adapted to cold temperatures since little differential gene expression was observed at growth temperatures of 10°C and 28°C, but at the extremities of its Arrhenius growth profile, namely -2.5°C and 39°C, much more differential gene expression occurred. The genes that responded were more typically associated with stress response. Keywords: stress response to cold and hot temperatures

Project description:Here we report the massively parallel cDNA sequencing (RNA-seq) analysis performed using high throughput sequencing of wild type (DB110) and toxR (TW30) mutant strains of the deep-sea bacterium Photobacterium profundum. ToxR is a transmembrane DNA-binding protein first discovered in Vibrio cholerae and able to regulate numerous genes involved in virulence. In P. profundum the abundance and activity of the same protein is influenced by hydrostatic pressure and is able to regulate genes in a pressure-dependent manner. To better characterize the ToxR regulon, we have compared the genes differentially expressed in response to pressure changes with those whose expression is altered between wild type and toxR mutant strains. Four samples were analyzed: DB110 strain grown at 0.1 MPa, DB110 strain grown at 28 MPa, TW30 strain grown at 0.1 MPa, TW30 strain grown at 28 MPa. Two independent coltures (replicates) were grown for each sample, RNA was extracted from each replicate and RNAs from the two replicates were pooled together to reduce biological variability. No replicates were included in experimental design.

Project description:P. profundum SS9 strain cells were grown at two different pressure conditions 45 MPa and at 28 MPa. RNA extracted from the two different cultures was labelled with Cy5 and Cy3 and competitively hybridized on the same slide.