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Discovery of a novel dehalogenase from Achromobacter mucicolens for PFAS defluorination

Created on 11 Jun 2026

Authors

Torabfam, M., Celebi Torabfam, G., Kurilla, S., Dias, C., Sadik, O.

Abstract

Here, we report the purification and characterization of a haloacid dehalogenase type II (HAD-II) enzyme capable of direct and cell-free enzymatic defluorination by cleaving the resilient C-F bond in perfluorooctanoic acid (PFOA). While conventional remediation strategies rely on energy-intensive chemical/thermal methods, biological alternatives are limited by long whole-microbiome incubations and poorly understood metabolic pathways. We discovered a novel HAD-II enzyme from Achromobacter mucicolens found in PFAS-contaminated lacustrine sediment, providing evidence of real-time microbial adaptation. Within 24-hour incubation, the system released approximately 0.55 ppm fluoride (17% yield) from a 5ppm PFOA (equivalent to maximum fluoride of 3.24 ppm) in recombinant enzyme assays. Structural and phylogenetic analyses reveal that the newly discovered HAD-II belongs to a deeply divergent lineage sharing only 25% sequence identity with the previously characterized Delftia homologue while preserving the core HAD-like catalytic fold. Comparative molecular docking further elucidated this functional divergence, demonstrating that PFOA adopts a productive binding orientation near the conserved catalytic Asp15 within the A. mucicolens active-site pocket, whereas the Delftia counterpart forces non-productive binding outside the catalytic site. Together, our work unveils a previously unrecognized Achromobacter-associated dehalogenase that mediates PFAS defluorination despite severe sequence divergence, offering a critical new paradigm for targeted biological remediation.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 11 Jun 2026.

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