Back to papers
0
Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Human Health Effects Nanoplastics Policy & Risk Remediation Sign in to save

Polystyrene Nanoplastics Inhibit the Transformation of Tetrabromobisphenol A by the Bacterium <i>Rhodococcus jostii</i>

ACS Nano 2021 46 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Shen Xu, Chao Wu, Ke Pan, Wenbo Guo, Wenbo Guo, Shen Xu, Wenbo Guo, Chao Wu, Wenbo Guo, Rong Ji Rong Ji Rong Ji Rong Ji Wenbo Guo, Liuyan Yang, Rong Ji Chao Wu, Rong Ji Ke Pan, Ke Pan, Rong Ji Rong Ji Wenbo Guo, Rong Ji Rong Ji Rong Ji Rong Ji Rong Ji Rong Ji Ke Pan, Ke Pan, Ke Pan, Ke Pan, Ke Pan, Liuyan Yang, Liuyan Yang, Ai‐Jun Miao, Ke Pan, Rong Ji Rong Ji Ai‐Jun Miao, Rong Ji Ai‐Jun Miao, Rong Ji Ke Pan, Ke Pan, Ai‐Jun Miao, Ke Pan, Rong Ji Ai‐Jun Miao, Rong Ji Ai‐Jun Miao, Rong Ji Rong Ji Rong Ji Rong Ji Ai‐Jun Miao, Rong Ji Ke Pan, Ke Pan, Liuyan Yang, Ke Pan, Rong Ji Rong Ji Rong Ji Rong Ji Rong Ji Rong Ji Rong Ji Rong Ji Ai‐Jun Miao, Rong Ji Ai‐Jun Miao, Ai‐Jun Miao, Ai‐Jun Miao, Ke Pan, Ke Pan, Ke Pan, Ke Pan, Rong Ji Ke Pan, Rong Ji Rong Ji Rong Ji Ai‐Jun Miao, Wenbo Guo, Ke Pan, Rong Ji Rong Ji Ke Pan, Ke Pan, Rong Ji Rong Ji Ke Pan, Ke Pan, Rong Ji Rong Ji Rong Ji Liuyan Yang, Ke Pan, Rong Ji Rong Ji Rong Ji Rong Ji Rong Ji Ai‐Jun Miao, Rong Ji

Summary

Researchers found that polystyrene nanoplastics can inhibit the bacterial transformation of the flame retardant tetrabromobisphenol A in a concentration-dependent manner, both by adsorbing the pollutant and by inducing oxidative stress in the bacterium Rhodococcus jostii.

Polymers
PS

Microplastics (MPs) and nanoplastics (NPs) in the environment pose significant risks to organisms of different trophic levels. While the toxicity of MPs and NPs have been extensively investigated, it remains unknown whether these particles affect microbial transformation of organic pollutants. Here, we show that 20 and 100 nm polystyrene NPs (PS-NPs) can inhibit the transformation of tetrabromobisphenol A (TBBPA) by Gram-positive bacterium <i>Rhodococcus jostii</i> in a concentration-dependent manner. We found that smaller PS-NPs were more inhibitory than larger ones and that both PS-NPs affected biotransformation in several ways. PS-NPs adsorbed TBBPA on their surface and reduced the bioavailable concentration of TBBPA for transformation by <i>R. jostii</i>. Furthermore, PS-NPs induced oxidative stress, increased membrane permeability, and downregulated <i>O</i>-methyltransferase enzymes that transform TBBPA into their methylated derivatives. Our results demonstrate that PS-NPs can impact microbial transformation of organic pollutants, and these effects should be accounted for in future environmental risk assessments.

Read via DOI PubMed

Sign in to start a discussion.

Share this paper

Post Share Share Pin Email