Microbial Cr(VI) reduction by indigenous activated sludge bacilli and pure culture of escherichia coli ATCC 33456
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Date
Authors
Chirwa, Evans M.N.
Molokwane, Pulane E.
Chihambakwe, Paidamoyo
Kholisa, Buyisile
Mtimunye, Phalazane Johanna
Matsena, Mpumelelo Thomas
Bansal, Neetu
Masinire, Farai F.
Journal Title
Journal ISSN
Volume Title
Publisher
Italian Association of Chemical Engineering
Abstract
Cr(VI) reducing microbial species Bacillus thuringiensis, Bacillus cereus and Bacillus mycoides were isolated
from dried sludge collected from sand drying beds at a local wastewater treatment plant in Brits (South Africa).
The plant received high periodic loadings of Cr(VI) contaminated effluent from an abandoned chrome processing
foundry within the chrome mining town of Brits. Other Cr(VI) producing organisms in the sludge sample were
identified as Microbacterium foliorum and Lycinobacillus sphaerococcus. Among the five confirmed Cr(VI)
reducers, B. thuringiensis was determined to have the highest performance in reducing Cr(VI) to Cr(III). The
Cr(VI) reducing capability of organisms isolated at the site has not diminished over a 15 year period (2006-
2021). In the current study, the performance and pathway structures responsible for Cr(VI) reduction are
analysed and compared with the activity of a metabolically versatile Escherichia coli ATCC 33456. The
observations from this study showcase advanced enzymatic Cr(VI) reductase structures in B. thuringiensis
never before observed in other microbial species. Blocking of electron carrier enzymes suggested the
involvement of dissolved thioredoxin in the cytosol and bulk media as possible biocatalysis activators for Cr(VI)
reduction in resting cells.
Description
Keywords
Bacillus thuringiensis, Dried sludge, Wastewater treatment plant, South Africa (SA)
Sustainable Development Goals
Citation
Chirwa E.M.N., Molokwane P.E., Chihambakwe P., Kholisa B., Mtimunye P.J., Matsena M.T., Bansal N., Masinire F.,
2022, Microbial Cr(vi) Reduction by Indigenous Activated Sludge Bacilli and Pure Culture of Escherichia Coli Atcc 33456, Chemical Engineering
Transactions, 94, 1417-1422. DOI:10.3303/CET2294236.