Homologous overexpression of azoreductase (azoA) in Enterococcus sp. L2 moderated growth and azo dye decolorization while gaining an oxidative and heavy metal stress resistance: A trade-off
2022
Rathod, Jagat | Pandey, Shubhangi | Mahadik, Kasturi | Archana, G.
Heavy metals as co-pollutants significantly restrict the efficiency of bioremediation of azo dye-containing effluents wherein bacterial survival is a prerequisite. An exposure to quinones and oxidative stress via H2O2 could induce the azoreductase activity in Enterococcus sp. L2 which could link the AzoA to its stress management system. Therefore, we underpinned the physiological and stress tolerance features by homologous over-expression of the azoA gene in its native strain. AzoA overexpression increased 3.4 folds azoreductase specific activity and enhanced quinone reduction profile. AzoA overexpression in native strain led to a delay in the early log phase growth and reactive violet 5R decolorization while gaining an advantageous stress resistance towards oxidative and heavy metals such as copper and chromium. This was confirmed by the 32 folds higher survival upon exposure to 20 mM H2O2 supported by H2DCFA staining. Additionally, the genetically modified strain significantly tolerated 3 mM Cu(II) and 0.3 mM Cr(VI) supporting the development of a robust azo dye bioremediation strain.
Show more [+] Less [-]AGROVOC Keywords
Bibliographic information
This bibliographic record has been provided by National Agricultural Library