Scientists characterize protein structure of environmentally friendly bacteria
Scientists at the U.S. Department of Energy's (DOE) Argonne National Laboratory have determined the structure of a key protein domain in a bacterium that could help with bioremediation of uranium-contaminated land sites.
The researchers, led by Argonne senior biophysicist Marianne Schiffer, characterized the structure of one of the principal domains in a protein responsible for certain types of movement exhibited by the bacterium Geobacter sulfurreducens.
Geobacter lives in predominantly low oxygen environments and generates energy by transferring electrons to various metallic electron-accepting atoms such as iron or uranium. This ability suggests that Geobacter might be used for remediation of certain types of hazardous waste. For example, when uranium is reduced by this process to its insoluble form, it no longer leaks into groundwater and engineers can inexpensively remove the precipitated uranium.
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The researchers, led by Argonne senior biophysicist Marianne Schiffer, characterized the structure of one of the principal domains in a protein responsible for certain types of movement exhibited by the bacterium Geobacter sulfurreducens.
Geobacter lives in predominantly low oxygen environments and generates energy by transferring electrons to various metallic electron-accepting atoms such as iron or uranium. This ability suggests that Geobacter might be used for remediation of certain types of hazardous waste. For example, when uranium is reduced by this process to its insoluble form, it no longer leaks into groundwater and engineers can inexpensively remove the precipitated uranium.
Do you want to know more?
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