Project description:Transcriptional profile of RNA extracted from Sphingobium sp. SYK-6 treated with 10 mM dehydrodiconiferyl alcohol (DCA), 10 mM vanillate, or SEMP (10 mM sucrose, 10 mM glutamate, 0.34 mM methionine, and 10 mM proline).

Project description:Transcriptional profile of RNA extracted from Sphingobium sp. SYK-6 treated with 10 mM dehydrodiconiferyl alcohol (DCA), 10 mM vanillate, or SEMP (10 mM sucrose, 10 mM glutamate, 0.34 mM methionine, and 10 mM proline) comparing labeled SYK-6 genomic DNA.

Project description:Transcriptional profile of RNA extracted from Sphingobium sp. SYK-6 treated with 10 mM dehydrodiconiferyl alcohol (DCA), 10 mM vanillate, or SEMP (10 mM sucrose, 10 mM glutamate, 0.34 mM methionine, and 10 mM proline). Dual channel experiment, RNA from cells treated with DCA or vanillate vs SEMP, independently grown and harvested.

Project description:Transcriptional profile of RNA extracted from Sphingobium sp. SYK-6 treated with 10 mM dehydrodiconiferyl alcohol (DCA), 10 mM vanillate, or SEMP (10 mM sucrose, 10 mM glutamate, 0.34 mM methionine, and 10 mM proline) comparing labeled SYK-6 genomic DNA. Dual channel experiment, RNA from cells treated with DCA, vanillate, or SEMP vs. genomic DNA. 3 control of genomic DNA, independently grown and harvested.

Project description:Transcriptional profile of RNA extracted from Sphingobium sp. SYK-6 treated with 10 mM pinoresinol (PR), 10 mM acetovanillone (AV), 10 mM phenylcoumarane (PC), 10 mM vanillate (VA), 10 mM vanillin (VN), 10 mM protocatechuate (PCA), 10 mM fellulate (FA), 10 mM 5,5'- dehydrodivanillate (DDVA), 10 mM 1,2‐bis(4‐hydroxy‐3‐methoxyphehyl)‐1,3‐propanediol (B1), 10 mM syringate (SA), 10 mM guaiacylglycerol‐β‐guaiacyl ether (GGE) comparing RNA extracted from SYK-6 treated with SEMP (10 mM sucrose, 10 mM glutamate, 0.34 mM methionine, and 10 mM proline).

Project description:Nickel is an essential component of many eukaryotic and prokaryotic metallo-enzymes. Due to its employment in many industrial applications, wastewaters from industrial plants often contain millimolar concentrations of Ni2+ that are toxic and life-threatening for many organism. Several lines of preliminary evidence suggest that members of the genus Sphingobium are able to grow in the presence of high concentrations of metal ions. We have isolated a novel Sphingobium strain (sp. ba1) able to grow in the presence of high concentrations (up to 20 mM) of NiCl2. Sequencing of its genome allowed the identification of several genes coding for proteins potentially involved in efflux-mediated resistance mechanisms. Here we use the RNA-seq approach to analyze the response of the Sphingobium sp. ba1 strain to high concentrations (10 mM) of Ni ions. Transcriptomic data show the differential expression of about one-hundred and twenty genes, most of which are up-regulated and encode proteins such as membrane proteins and components of metal efflux systems, enzymes involved in oxidative stress responses (catalases, peroxidases) and signal transduction systems.

Project description:This study examines the transcriptomic response of biofilms of the PAH-degrading Sphingomonas sp. LH128 on solute stress when actively degrading and growing on the PAH compound. To address the effect of solute stress on bacterial physiology and transcriptomic response, NaCl was used as osmolyte. Both acute and chronic solute stress was invoked to assess differences in short-term and long-term responses.

Project description:This study examines the transcriptomic response of biofilms of the PAH-degrading Sphingomonas sp. LH128 on solute stress when actively degrading and growing on the PAH compound. To address the effect of solute stress on bacterial physiology and transcriptomic response, NaCl was used as osmolyte. Both acute and chronic solute stress was invoked to assess differences in short-term and long-term responses. Transcriptomic response of phenanthrene degrading Sphingomonas sp. LH128 biofilms as a response to short-term and long-term solute (NaCl) stress was studied using genome-wide gene expression analysis. For this purpose, the strain was grown in customized continuous glass flow chambers that contain solid phenanthrene as a sole carbon source and that allow easy recovery of biofilm cells for transcriptomic and physiological analysis. A NaCl stress of 450 mM was imposed on LH128 biofilms growing on phenanthrene crystals coated on glass slides either for 4 hours (acute stress) or for 3 days (chronic stress). RNA was extracted from the biofilm and cDNA was synthesized and labeled with Cy3. Transcriptomic response in the stressed biofilms of three replicates per conditions were analyzed and compared with non-stressed

Project description:Sphingobium sp. Genome sequencing

Project description:Carbazole-degrading bacterium Sphingobium sp. BS19