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Title: The Membrane Proteome of Shewanella oneidensis MR-1

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Research Org.:
Oak Ridge National Laboratory (ORNL), Oak Ridge, TN
Sponsoring Org.:
USDOE Office of Science (SC)
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Conference: Annual Environmental Remediation Sciences Program PI Meeting, April 3-5, 2006, Warrenton, VA
Country of Publication:
United States

Citation Formats

Giometti, C.S., Khare, T., VerBerkmoes, N., O'Loughlin, E., and Nealson, K. The Membrane Proteome of Shewanella oneidensis MR-1. United States: N. p., 2006. Web.
Giometti, C.S., Khare, T., VerBerkmoes, N., O'Loughlin, E., & Nealson, K. The Membrane Proteome of Shewanella oneidensis MR-1. United States.
Giometti, C.S., Khare, T., VerBerkmoes, N., O'Loughlin, E., and Nealson, K. Wed . "The Membrane Proteome of Shewanella oneidensis MR-1". United States. doi:.
title = {The Membrane Proteome of Shewanella oneidensis MR-1},
author = {Giometti, C.S. and Khare, T. and VerBerkmoes, N. and O'Loughlin, E. and Nealson, K.},
abstractNote = {},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {Wed Apr 05 00:00:00 EDT 2006},
month = {Wed Apr 05 00:00:00 EDT 2006}

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  • Shewanella oneidensis MR-1 is a gram-negative, facultatively anaerobic bacterium originally isolated from a freshwater lake. S. oneidensis MR-1 has the ability to reduce toxic metal ions [e.g., Cr(VI) and U(VI)] found in industrial and governmental waste sites. Cells were grown and exposed to three different metal concentrations in order to probe the dosage response of S. oneidensis MR-1 to Cr(VI) in the form of chromate. Protein fractions were digested with trypsin and analyzed with a multidimensional HPLC-NanoESIMS/MS protocol. The goal of this work is to identify protein components of pathways/mechanisms responsible for both detoxification and reduction of chromate.
  • Proteome alterations in the metal-reducing bacterium Shewanella oneidensis MR-1 in response to different acute dose challenges (0.3, 0.5, or 1 mM) of the toxic metal chromate [Cr(VI)] were characterized with multidimensional HPLC-MS/MS on a linear trapping quadrupole MS. A total of 2,406 functionally diverse proteins were identified, with a subset demonstrating dosage-dependent up- and down-regulated expression, such as proteins involved in detoxification and iron binding and transport.
  • A simple and effective subcellular proteomic method for fractionation and analysis of gram-negative bacterial cytoplasm, periplasm, inner, and outer membranes was applied to Shewanella oneidensis to gain insight into its subcellular architecture. A combination of differential centrifugation, Sarkosyl solubilization, and osmotic lysis was used to prepare subcellular fractions. Global differences in protein fractions were observed by SDS PAGE and heme staining, and tryptic peptides were analyzed using high-resolution LC-MS/MS. Compared to crude cell lysates, the fractionation method achieved a significant enrichment (average ~2-fold) in proteins predicted to be localized to each subcellular fraction. Compared to other detergent, organic solvent, andmore » density-based methods previously reported, Sarkosyl most effectively facilitated separation of the inner and outer membranes and was amenable to mass spectrometry, making this procedure ideal for probing the subcellular proteome of gram-negative bacteria via LC-MS/MS. With 40% of the observable proteome represented, this study has provided extensive information on both subcellular architecture and relative abundance of proteins in S. oneidensis and provides a foundation for future work on subcellular organization and protein-membrane interactions in other gram-negative bacteria.« less
  • Using stringent criteria for protein identification by accurate mass and time (AMT) tag mass spectrometric methodology, we detected 36 proteins <101 amino acids in length, including 10 that were annotated as hypothetical proteins, in 172 global tryptic digests of Shewanella oneidensis MR-1 proteins analyzed. Peptides that map to the conserved, but functionally uncharacterized proteins SO4134 and SO2787, were the most frequently detected small proteins in these samples, while hypotheticals SO2669 and SO2063, conserved hypotheticals SO0335 and SO2176, and the SlyX protein (SO1063) were observed at frequencies similar to small expected abundant ribosomal proteins and translation initiation factor IF-1 and consequently,more » likely to encode important cellular functions. In addition, 30 proteins including three of the small proteins that map to genes predicted to encode frameshifts, point mutations, or recoding signals were detected. Of these 30 genes, peptides that map to positions beyond internal stop codons were detected in 13 genes (SO0101, SO0419, SO0590, SO0738, SO1113, SO1211, SO3079, SO3130, SO3240, SO4231, SO4328, SO4422, and SO4657). While expression of the full-length formate dehydrogenase encoded by SO0101 can be explained by incorporation of selenocysteine at the internal stop codon, the mechanism of translating downstream sequences in the remaining genes remains unknown.« less
  • SUMMARY Shewanella oneidensis MR-1 is a facultatively anaerobic bacterium that is capable of using insoluble oxidized metals, such as manganese [Mn(III, IV)] and iron [Fe(III)] oxides and oxyhydroxides, as terminal electron acceptors during anaerobic respiration. The ability of S. oneidensis MR-1 to reduce oxidized Mn and/or Fe has previously been linked to OmcA and MtrC: two decaheme c-type cytochromes that are localized to the outer membrane. To investigate how the electron transport proteins OmcA and MtrC are organized, we expressed and purified recombinant OmcA and MtrC from wild type S. oneidensis MR-1 as well as a mutant that lacked OmcAmore » and MtrC (ΔomcA/mtrC). After purification to the nearly electrophoretic homogeneity from the ΔomcA/mtrC mutant, the recombinant OmcA and MtrC exhibited the characteristics of c-type cytochromes, and each of their polypeptides was confirmed to contain 10 hemes. When purified from wild type cells, endogenous MtrC or OmcA was always co-purified with recombinant OmcA or MtrC, respectively. Fluorescence polarization experiment showed that recombinant OmcA bound to the FlAsH-labeled MtrC with a dissociation constant of 7 ×10-7 M. The purified recombinant OmcA or MtrC alone displayed intrinsic ferric reductase activity with NADH used as an electron donor. Ferric reductase specific activity increased by 35 to 41% when nearly equimolar concentrations of OmcA and MtrC were assayed relative to the two proteins assayed independently. These results demonstrate that OmcA and MtrC directly interact with each other to form a stable complex with high ferric reductase activity.« less