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Detection Of Selenium Deposits In Escherichia Coli By Electron Microscopy.

Theresa L. Gerrard, John N. Telford, Harold H. Williams
Published 1974 · Biology, Chemistry, Medicine
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Cells of Escherichia coli will reduce sodium selenite to elemental selenium. Examination by electron microscopy of E. coli cultures grown in the presence of sodium selenite show selenium deposited on the cell membrane and cell wall but not in the cytoplasm.

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Dhan Prakash (2010)
Isolation and identification of selenite reducing archaea from Tuz (salt) Lake In Turkey.
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Microbial studies of a selenium-contaminated mine site and potential for on-site remediation
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