Microbial-Based Strategies for the Mitigation of Fluorinated Environmental Pollutants

A special issue of Microorganisms (ISSN 2076-2607). This special issue belongs to the section "Environmental Microbiology".

Deadline for manuscript submissions: closed (30 June 2023) | Viewed by 5169

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Interdisciplinary Centre of Marine and Environmental Research (CIIMAR), Terminal de Cruzeiros de Leixões, AV. General Norton de Matos, s/n, 4450-208 Matosinhos, Portugal
Interests: bioprospection; actinobacteria; bioactive metabolites; discovery of new natural compounds
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E-Mail Website
Guest Editor
Interdisciplinary Centre of Marine and Environmental Research (CIIMAR), Terminal de Cruzeiros de Leixões, AV. General Norton de Matos, s/n, 4450-208 Matosinhos, Portugal
Interests: biodegradation of recalcitrant compounds; isolation and characterization of microorganisms with bioremediation potential and on the development of bioremediation technologies
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

Fluoro-organic compounds are witnessing a rise in popularity, particularly in the materials, pharmaceutical and agrochemical sectors. Their versatile properties, namely, their lipophilicity and molecular stability, have allowed these compounds to serve as ideal bioactive molecules, with improved pharmacokinetics and in vivo half-lives, as well as featuring as water-repelling, anti-coating and heat-resistant polymers. However, these same properties have also contributed to the emergence of highly stable and recalcitrant molecules with the potential to inflict ecosystem damage. In addition, many fluorinated compounds have been detected across the biosphere, including in extreme environments, such as polar and alpine regions, where they are expected to persist and accumulate overtime. Given their recalcitrant character, the natural attenuation of these xenobiotic pollutants by environmental microorganisms is not likely to be sufficient to neutralize their hazardous and pervasive nature. Still, the microbial degradation of fluoro-organic molecules, including heavily fluorinated cohorts such as PFAS, has shown to be possible when catalyzed by talented microorganisms acting individually or as a consortium. These microorganisms and their enzymes may be the key for the development of biotechnologies capable of mitigating the impacts associated with the widespread dissemination of fluoro-organic compounds in ecosystems.

In this context, this Special Issue aims to gather high-quality contributions in the form of original articles or literature reviews, expanding current knowledge on the microbial degradation of fluoro-organic molecules and enhancing our understanding of the interaction between microorganisms and these xenobiotic substrates, and how they can be functionalized into effective bioremediation solutions. Manuscripts detailing the strategies and pathways associated with the aerobic and anaerobic biodegradation of fluorinated pollutants are welcome, particularly those employing multiomics surveys, reporting disruptive nature-based solutions or resorting to synthetic biology and/or metabolic engineering approaches for the fine-tuning of effective biocatalysts.

Dr. Maria De Fátima Carvalho
Dr. Diogo Alexandrino
Guest Editors

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Published Papers (1 paper)

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Review

13 pages, 1942 KiB  
Review
Strategies for the Biodegradation of Polyfluorinated Compounds
by Lawrence P. Wackett
Microorganisms 2022, 10(8), 1664; https://doi.org/10.3390/microorganisms10081664 - 17 Aug 2022
Cited by 14 | Viewed by 4482
Abstract
Many cite the strength of C–F bonds for the poor microbial biodegradability of polyfluorinated organic compounds (PFCs). However, commercial PFCs almost invariably contain more functionality than fluorine. The additional functionality provides a weak entry point for reactions that activate C–F bonds and lead [...] Read more.
Many cite the strength of C–F bonds for the poor microbial biodegradability of polyfluorinated organic compounds (PFCs). However, commercial PFCs almost invariably contain more functionality than fluorine. The additional functionality provides a weak entry point for reactions that activate C–F bonds and lead to their eventual cleavage. This metabolic activation strategy is common in microbial biodegradation pathways and is observed with aromatic hydrocarbons, chlorinated compounds, phosphonates and many other compounds. Initial metabolic activation precedes critical bond breakage and assimilation of nutrients. A similar strategy with commercial PFCs proceeds via initial attack at the non-fluorinated functionalities: sulfonates, carboxylates, chlorines, phenyl rings, or phosphonates. Metabolic transformation of these non-fluorinated groups can activate the C–F bonds, allowing more facile cleavage than a direct attack on the C–F bonds. Given that virtually all compounds denoted as “PFAS” are not perfluorinated and are not alkanes, it is posited here that considering their individual chemical classes is more useful for both chemical and microbiological considerations of their fate. Full article
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