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Occurrence of Harmful Algal Blooms (HABs) creates a threat to aquatic ecosystem affecting the existing ora and fauna. Hence, the mitigation of HABs through an eco-friendly approach remains a challenge for environmentalists. The present study provides the genomic insights of Rhizobium sp. (AQ_MP), an environmental isolate that showed the capability of degrading Microcystis aeruginosa (Cyanobacteria) at laboratory scale. Genome sequence analysis of Rhizobium sp. (AQ_MP) was performed to determine the algal lysis properties and toxin degradative pathway. It is envisaged that Rhizobium sp. (AQ_MP) secreted CAZymes like Glycosyltransferases (GT), Glycoside Hydrolases (GH), polysaccharide lyases (PL), which allowed algal polysaccharide degradation (lysis) and enabled nutrient release for the subsequent growth of Rhizobium sp. (AQ_MP) Genome analysis also showed the presence of the glutathione metabolic pathway, which is the biological detoxi cation pathway responsible for microcystin degradation. The conserved region mlrC, a microcystin toxin degrading responsible gene, was also annotated in Rhizobium sp. (AQ_MP). This study con rmed that Rhizobium sp. (AQ_MP) harbours a wide range of crucial enzymes released for lysis of Microcystis aeruginosa (M. aeruginosa) cells and also for degradation of microcystin toxin. This study thus nd promiscuity for scaling the lab based analysis to eld level in future.

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Mili Pal

Biotic control of harmful algal blooms (HABs): A brief review

Microbial exopolymeric substances and biosurfactants as ‘bioavailability enhancers’ for polycyclic aromatic hydrocarbons biodegradation

Genomic insight for algicidal activity in Rhizobium strain AQ_MP

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