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Molecular & Cellular Proteomics 6:2239-2251, 2007.
© 2007 by The American Society for Biochemistry and Molecular Biology, Inc.

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Research

Periplasmic Proteins of the Extremophile Acidithiobacillus ferrooxidans

A High Throughput Proteomics Analysis^*,S

An Chi^,,¶, Lissette Valenzuela^,||,**, Simon Beard^||,, Aaron J. Mackey, Jeffrey Shabanowitz, Donald F. Hunt^,¶¶ and Carlos A. Jerez^||,||||

From the ^|| Laboratory of Molecular Microbiology and Biotechnology, Department of Biology and Cell Dynamics and Biotechnology Institute, Faculty of Sciences, University of Chile, Santiago 7800024, Chile and Department of Chemistry, University of Virginia, Charlottesville, Virginia 22904, and Departments of Microbiology and ^¶¶ Pathology, University of Virginia, Charlottesville, Virginia 22908

Acidithiobacillus ferrooxidans is a chemolithoautotrophic acidophile capable of obtaining energy by oxidizing ferrous iron or sulfur compounds such as metal sulfides. Some of the proteins involved in these oxidations have been described as forming part of the periplasm of this extremophile. The detailed study of the periplasmic components constitutes an important area to understand the physiology and environmental interactions of microorganisms. Proteomics analysis of the periplasmic fraction of A. ferrooxidans ATCC 23270 was performed by using high resolution linear ion trap-FT MS. We identified a total of 131 proteins in the periplasm of the microorganism grown in thiosulfate. When possible, functional categories were assigned to the proteins: 13.8% were transport and binding proteins, 14.6% were several kinds of cell envelope proteins, 10.8% were involved in energy metabolism, 10% were related to protein fate and folding, 10% were proteins with unknown functions, and 26.1% were proteins without homologues in databases. These last proteins are most likely characteristic of A. ferrooxidans and may have important roles yet to be assigned. The majority of the periplasmic proteins from A. ferrooxidans were very basic compared with those of neutrophilic microorganisms such as Escherichia coli, suggesting a special adaptation of the chemolithoautotrophic bacterium to its very acidic environment. The high throughput proteomics approach used here not only helps to understand the physiology of this extreme acidophile but also offers an important contribution to the functional annotation for the available genomes of biomining microorganisms such as A. ferrooxidans for which no efficient genetic systems are available to disrupt genes by procedures such as homologous recombination.

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