Journal of Xenobiotics (Feb 2024)

The Complete Genome Sequence of <i>Bacillus toyonensis</i> Cbmb3 with Polyvinyl Chloride-Degrading Properties

  • Dandan Wang,
  • Hong Yu,
  • Xinbei Liu,
  • Li Sun,
  • Xijian Liu,
  • Ruilong Hu,
  • Chao Wang,
  • Yuping Zhuge,
  • Zhihong Xie

DOI
https://doi.org/10.3390/jox14010018
Journal volume & issue
Vol. 14, no. 1
pp. 295 – 307

Abstract

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The accumulation of high amounts of plastic waste in the environment has raised ecological and health concerns, particularly in croplands, and biological degradation presents a promising approach for the sustainable treatment of this issue. In this study, a polyvinyl chloride (PVC)-degrading bacterium was isolated from farmland soil samples attached to waste plastic, utilizing PVC as the sole carbon source. The circular chromosome of the strain Cbmb3, with a length of 5,768,926 bp, was subsequently sequenced. The average GC content was determined to be 35.45%, and a total of 5835 open reading frames were identified. The strain Cbmb3 was designated as Bacillus toyonensis based on phylogenomic analyses and genomic characteristics. The bioinformatic analysis of the Cbmb3 genome revealed putative genes encoding essential enzymes involved in PVC degradation. Additionally, the potential genomic characteristics associated with phytoprobiotic effects, such as the synthesis of indole acetic acid and secondary metabolite synthesis, were also revealed. Overall, the present study provides the first complete genome of Bacillus toyonensis with PVC-degrading properties, suggesting that Cbmb3 is a potential strain for PVC bioremediation and application.

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