Accumulation and fate of tri-n-butyltin cation in estuarine bacteria [Aeromonas]

The accumulation and possible metabolic transformation of tri-n-butyltin cation by tin-resistant estuarine bacteria was studied. The bacterial isolates accumulated tributyltin to 3.7-7.7 mg tin per g dry weight of cells by a nonenergy requiring process, probably by adsorption to the cell envelope. C...

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Veröffentlicht in:	Microbial ecology 1982-12, Vol.8 (3), p.241-251
Hauptverfasser:	Blair, W.R, Olson, G.J, Brinckman, F.E, Iverson, W.P
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacteria Brackish Cell walls Cellular metabolism Chlorides Flasks Microorganisms Sediments Speciation Tin Volatility
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container_title	Microbial ecology
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creator	Blair, W.R Olson, G.J Brinckman, F.E Iverson, W.P
description	The accumulation and possible metabolic transformation of tri-n-butyltin cation by tin-resistant estuarine bacteria was studied. The bacterial isolates accumulated tributyltin to 3.7-7.7 mg tin per g dry weight of cells by a nonenergy requiring process, probably by adsorption to the cell envelope. Chemical speciation of cell extracts and culture media by combined liquid chromatography-atomic absorption spectrophotometry and tin-selective purge and trap flame photometric gas chromatography for possible tributyltin degradation products revealed no significant bio-transformations of tributyltin cation by the tributyltin-resistant isolates. Apparently the isolates accumulate, but do not metabolize tributyltin.
doi_str_mv	10.1007/BF02011428
format	Article
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The bacterial isolates accumulated tributyltin to 3.7-7.7 mg tin per g dry weight of cells by a nonenergy requiring process, probably by adsorption to the cell envelope. Chemical speciation of cell extracts and culture media by combined liquid chromatography-atomic absorption spectrophotometry and tin-selective purge and trap flame photometric gas chromatography for possible tributyltin degradation products revealed no significant bio-transformations of tributyltin cation by the tributyltin-resistant isolates. 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source	SpringerNature Journals; JSTOR Archive Collection A-Z Listing
subjects	Bacteria Brackish Cell walls Cellular metabolism Chlorides Flasks Microorganisms Sediments Speciation Tin Volatility
title	Accumulation and fate of tri-n-butyltin cation in estuarine bacteria [Aeromonas]
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