Project description:High-resolution tiling analysis of the MR-1 transcriptome in defined lactate minimal medium

Project description:We investigated the anode-specific responses of Shewanella oneidensis MR-1, an exoelectroactive ammaproteobacterium, using for the first time iTRAQ and 2D-LC MS/MS driven membrane proteomics to compare protein abundances in S. oneidensis when generating power in MFCs, and growing in a continuous culture.

Project description:5' RNA-Seq of mRNA from S. oneidensis MR-1 grown aerobically in defined lactate medium

Project description:Shewanella oneidensis is an important model organism for bioremediation studies because of its diverse respiratory capabilities. In recent years, biofilm development of S. oneidensis has been extensively studied because it is essential to reduce solid metals. As a special form of biofilm, however, pellicles are largely overlooked. The goal of this work was to understand requirements of S. oneidensis pellicle formation and the molecular basis of pellicle formation. We demonstrated that successful pellicle formation and survival was likely to require the threshold level of cell density and higher concentration of oxygen. Proteinase K and EDTA were potent pellicle disrupter. DNA microarray experiments were used to study the gene expression profile of young air–liquid interface pellicle relative to planktonic cells, which indicated that the air–liquid interface pellicle was more metabolically active than the planktonic cells. Most notably, consistently up-regulation of iron or heme uptake and transportation proteins was observed in the S. oneidensis MR-1 pellicle. However, neither the hmuT nor hugA heme transport mutant was defective in pellicle formation. An examination of the influence of several metal cations on the anti-pellicle activity of EDTA showed that Ca (II), Mn(II), Cu(II), and Zn(II) fully protected S. oneidensis MR-1 pellicle against EDTA treatment while additional of iron enabled the initiation of pellicle formation but maturation was significantly impaired. Collectively, iron was less important than other metals with respect to pellicle formation in S. oneidensis.

Project description:5' RNASeq of mRNA from S. oneidensis MR-1 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium

Project description:Shewanella oneidensis is an important model organism for bioremediation studies because of its diverse respiratory capabilities. In recent years, biofilm development of S. oneidensis has been extensively studied because it is essential to reduce solid metals. As a special form of biofilm, however, pellicles are largely overlooked. The goal of this work was to understand requirements of S. oneidensis pellicle formation and the molecular basis of pellicle formation. We demonstrated that successful pellicle formation and survival was likely to require the threshold level of cell density and higher concentration of oxygen. Proteinase K and EDTA were potent pellicle disrupter. DNA microarray experiments were used to study the gene expression profile of young air–liquid interface pellicle relative to planktonic cells, which indicated that the air–liquid interface pellicle was more metabolically active than the planktonic cells. Most notably, consistently up-regulation of iron or heme uptake and transportation proteins was observed in the S. oneidensis MR-1 pellicle. However, neither the hmuT nor hugA heme transport mutant was defective in pellicle formation. An examination of the influence of several metal cations on the anti-pellicle activity of EDTA showed that Ca (II), Mn(II), Cu(II), and Zn(II) fully protected S. oneidensis MR-1 pellicle against EDTA treatment while additional of iron enabled the initiation of pellicle formation but maturation was significantly impaired. Collectively, iron was less important than other metals with respect to pellicle formation in S. oneidensis. A fresh colony grown overnight on a LB plate was used to inoculate 50 ml LB and incubated in a shaker (200 rpm) to an OD600 of 0.8 at the room temperature. This culture was then diluted 500-fold with fresh LB, resulting in the starting cultures. Aliquots of 30ml starting cultures were transferred to 50-ml Pyrex beakers and allowed to develop pellicles at the room temperature. When a complete but thin (young pellicle) at the interface were formed (about 30h hours), planktonic culture and pellicle were separated and applied to centrifugation at 8000 rpm for 3 min at room temperature. 3 parallel starting cultures were used and 3 samlpes of pellicle cells or planktonic cells were collected at 30h. RNA from the pellicle cells was fluorescently labeled with Cy3, and that from the planktonic was labeled with Cy5.

Project description:High-resolution tiling analysis of the MR-1 transcriptome in defined lactate minimal medium One slide hybridized to mRNA and one “genomic control” array hybridized to genomic DNA

Project description:5' RNA-Seq of mRNA from S. oneidensis MR-1 grown aerobically in defined lactate medium One lane of sequence for a 5' RNASeq library from RNA treated with exonuclease to remove degraded transcripts, with single-end 40-nt reads

Project description:High-resolution tiling analysis of the MR-1 transcriptome under diverse growth conditions The conditions include aerobic growth in Luria-Bertani broth (LB), aerobic growth in defined lactate minimal medium, anaerobic growth in defined lactate minimal medium with 20mM dimethyl sulfoxide as the electron acceptor, anaerobic growth in defined lactate minimal medium with 10mM iron (III) citrate as the electron acceptor, 10 minutes post heat shock at 42oC see GSE39468 for tiling data on lactate minimal media

Project description:5' RNASeq of mRNA from S. oneidensis MR-1 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium 5'-end mRNA profiles of mid-log phase bacterial cells growing in LB or lactate medium were generated by next-generation sequencing.