Regulatory Machinery of Bacterial Bioflocculant Synthesis and Optimisation and Assessment of Bioflocculation Efficiency in Wastewater
Stanley Mokoboro, Tlou Nelson Selepe, Tsolanku Sidney Maliehe, Kgabo Moganedi

TL;DR
This study explores how bacteria produce bioflocculants and finds optimal conditions for their use in wastewater treatment.
Contribution
The study identifies key genes and optimal conditions for bioflocculant production in Klebsiella species.
Findings
Klebsiella michiganensis and K. pasteurii are potent bioflocculant producers with high activity under optimized conditions.
Bioflocculants from these bacteria reduced wastewater chemical oxygen demand and turbidity by over 70%.
Optimal production conditions varied between the two species, including temperature, pH, and nutrient sources.
Abstract
Bacteria are promising sources of bioflocculants, yet their regulatory machinery for bioflocculant synthesis remains underexplored. This study focused on evaluating the biosynthetic genes, optimisation and assessment of bioflocculation efficiency in wastewater. The isolated bioflocculant producers were identified by 16S rRNA and rpoB gene analysis. Polymerase chain reaction was used to assess the presence of polyketide synthase I (PKS-1), polyketide synthase II (PKS-II), non-ribosomal peptide synthetase (NRPS), epsH and epsJ. A one-factor-at-a-time technique was utilised for optimisation of culture conditions. The bioflocculants’ efficiencies were evaluated in wastewater using the Jar test method. Among 31 isolates, Klebsiella michiganensis and Klebsiella pasteurii were the most potent bioflocculant producers. They both revealed the presence of PKS-II. K. pasteurii possessed the epsH…
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Taxonomy
TopicsCoagulation and Flocculation Studies · Polymer-Based Agricultural Enhancements · Constructed Wetlands for Wastewater Treatment
