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Rapid arsenite oxidation by Paenarthrobacter nicotinovorans strain SSBW5: unravelling the role of GlpF, aioAB and aioE genes

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dc.contributor.author Mujawar, S.Y.
dc.contributor.author Shamim, K.
dc.contributor.author Vaigankar, D.C.
dc.contributor.author Naik, M.M.
dc.contributor.author Dubey, S.K.
dc.date.accessioned 2023-10-25T06:21:34Z
dc.date.available 2023-10-25T06:21:34Z
dc.date.issued 2023
dc.identifier.citation Archives of Microbiology. 205(10); 2023; ArticleID_333. en_US
dc.identifier.uri https://doi.org/10.1007/s00203-023-03673-y
dc.identifier.uri http://irgu.unigoa.ac.in/drs/handle/unigoa/7147
dc.description.abstract A novel arsenite resistant bacterial strain SSBW5 was isolated from the battery waste site of Corlim, Goa, India. This strain interestingly exhibited rapid arsenite oxidation with an accumulation of 5 mM arsenate within 24 h and a minimum inhibitory concentration (MIC) of 18 mM. The strain SSBW5 was identified as Paenarthrobacter nicotinovorans using 16S rDNA sequence analysis. Fourier-transformed infrared (FTIR) spectroscopy of arsenite-exposed cells revealed the interaction of arsenite with several important functional groups present on the cell surface, possibly involved in the resistance mechanism. Interestingly, the whole genome sequence analysis also clearly elucidated the presence of genes, such as GlpF, aioAB and aioE encoding transporter, arsenite oxidase and oxidoreductase enzyme, respectively, conferring their role in arsenite resistance. Furthermore, this strain also revealed the presence of several other genes conferring resistance to various metals, drugs, antibiotics and disinfectants. Further suggesting the probable direct or indirect involvement of these genes in the detoxification of arsenite thereby increasing its tolerance limit. In addition, clumping of bacterial cells was observed through microscopic analysis which could also be a strategy to reduce arsenite toxicity thus indicating the existence of multiple resistance mechanisms in strain SSBW5. In the present communication, we are reporting for the first time the potential of P. nicotinovorans strain SSBW5 to be used in the bioremediation of arsenite via arsenite oxidation along with other toxic metals and metalloids. en_US
dc.publisher Springer en_US
dc.subject Microbiology en_US
dc.title Rapid arsenite oxidation by Paenarthrobacter nicotinovorans strain SSBW5: unravelling the role of GlpF, aioAB and aioE genes en_US
dc.type Journal article en_US
dc.identifier.impf y


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