Title of article
Detoxification of selenite and mercury by reduction and mutual protection in the assimilation of both elements by Pseudomonas fluorescens
Author/Authors
Nelson Belzile، نويسنده , , Gao Jun Wu 1، نويسنده , , Yu-Wei Chen، نويسنده , , Vasu D. Appanna، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2006
Pages
11
From page
704
To page
714
Abstract
A study on the assimilation and detoxification of selenium and mercury and on the interaction between these two elements was
conducted on Pseudomonas fluorescens. P. fluorescens was able to convert separately both elements to their elemental forms,
which are less toxic and biologically less available. To study the converting mechanism of selenite to elemental Se, cells were
grown in the presence of various selenite concentrations and several parameters such as extracellular protein concentrations, pH,
carbohydrate concentrations, isocitrate dehydrogenase (ICDH) and malic enzyme were monitored. Transmission electron
microscopy (TEM) and various analytical methods were applied to confirm the interaction between selenium and cell. The former
appeared as a red precipitate localized predominantly in the consumed culture medium. P. fluorescens also resisted to the toxic
effect of mercury by converting Hg2+ to the volatile and less toxic form Hg0. Mercury reductase was likely responsible for the
conversion of Hg2+ to Hg0. More importantly, the interaction between mercury and selenium was also studied. The presence of
selenite significantly reduced the accumulation of mercury in P. fluorescens. It was also interesting to note that mercury appeared to
behave as a protecting agent against selenium intoxication as the bioaccumulation of Se was also inhibited by this metal. The
formation of Se–Hg complexes could explain this mutual protective effect. No precipitate of elemental Se could be detected when
Hg was present in the cultures.
Keywords
Selenium , mercury , reduction , bioaccumulation , antagonism
Journal title
Science of the Total Environment
Serial Year
2006
Journal title
Science of the Total Environment
Record number
985874
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