Your search keyword '"Di Canito, A"' showing total 3 results

1. Biodegradation of naphthenic acids: identification of Rhodococcus opacus R7 genes as molecular markers for environmental monitoring and their application in slurry microcosms.

Author

Zampolli, J., Di Canito, A., Cappelletti, M., Collina, E., Lasagni, M., and Di Gennaro, Patrizia

Subjects

*NAPHTHENIC acids, *ENVIRONMENTAL monitoring, *RHODOCOCCUS, *SLURRY, *ALICYCLIC compounds, *BIODEGRADATION

Abstract

Nowadays, the increase of the unconventional oil deposit exploitation and the amount of oil sands process-affected waters (OSPW) in tailing ponds emerges the importance of developing bio-monitoring strategies for the restoration of these habitats. The major constituents of such deposits are naphthenic acids (NAs), emerging contaminant mixtures with toxic and recalcitrant properties. With the aim of developing bio-monitoring strategies based on culture-independent approach, we identified genes coding for enzymes involved in NA degradation from Rhodococcus opacus R7 genome, after the evaluation of its ability to mineralize model NAs. R. opacus R7 whole-genome analysis unveiled the presence of pobA and chcpca gene clusters putatively involved in NAs degradation. Gene expression analysis demonstrated the specific induction of R7 aliA1 gene, encoding for a long-chain-fatty-acid-CoA ligase, in the presence of cyclohexanecarboxylic acid (CHCA) and hexanoic acid (HA), selected as representative compounds for alicyclic and linear NAs, respectively. Therefore, aliA1 gene was selected as a molecular marker to monitor the biodegradative potential of slurry-phase sand microcosms in different conditions: spiked with CHCA, in the presence of R. opacus R7, the autochthonous microbial community, and combining these factors. Results revealed that the aliA1-targeting culture-independent approach could be a useful method for bio-monitoring of NA degradation in a model laboratory system. [ABSTRACT FROM AUTHOR]

Published

2020

2. Genome analysis and -omics approaches provide new insights into the biodegradation potential of Rhodococcus.

Author

Zampolli, Jessica, Zeaiter, Zahraa, Di Canito, Alessandra, and Di Gennaro, Patrizia

Subjects

RHODOCOCCUS, BACTERIAL genomes, BIODEGRADATION, HYDROCARBONS, PLASTICIZERS

Abstract

The past few years observed a breakthrough of genome sequences of bacteria of Rhodococcus genus with significant biodegradation abilities. Invaluable knowledge from genome data and their functional analysis can be applied to develop and design strategies for attenuating damages caused by hydrocarbon contamination. With the advent of high-throughput -omic technologies, it is currently possible to utilize the functional properties of diverse catabolic genes, analyze an entire system at the level of molecule (DNA, RNA, protein, and metabolite), simultaneously predict and construct catabolic degradation pathways. In this review, the genes involved in the biodegradation of hydrocarbons and several emerging plasticizer compounds in Rhodococcus strains are described in detail (aliphatic, aromatics, PAH, phthalate, polyethylene, and polyisoprene). The metabolic biodegradation networks predicted from omics-derived data along with the catabolic enzymes exploited in diverse biotechnological and bioremediation applications are characterized. [ABSTRACT FROM AUTHOR]

Published

2019

3. Correction to: Biodegradation of naphthenic acids: identification of Rhodococcus opacus R7 genes as molecular markers for environmental monitoring and their application in slurry microcosms.

Author

Zampolli, J., Di Canito, A., Cappelletti, M., Collina, E., Lasagni, M., and Di Gennaro, P.

Subjects

*NAPHTHENIC acids, *ENVIRONMENTAL monitoring, *RHODOCOCCUS, *SLURRY, *BIODEGRADATION, *GENES

Abstract

The published online version contains mistake in the author list for the author "M. Cappelletti" was incorrectly presented. [ABSTRACT FROM AUTHOR]

Published

2020