Phenol remediation by peroxidase from an invasive mesquite: Turning an environmental wound into wisdom

Abstract The present study examines mesquite ( Prosopis juliflora ), an invasive species, to yield peroxidase that may reduce hazards of phenolics to living organisms. As low as 0.3U of low-purity mesquite peroxidase (MPx) efficiently remove phenol and chlorophenols (90–92%) compared with Horseradish peroxidase (HRP) (40–60%). MPx shows a very high removal efficiency (40–50%) at a wide range of pH (2–9) and temperature (20–80 °C), as opposed to HRP (15–20%). At a high-level of the substrate (2.4 mM) and without the addition of PEG, MPx maintains a significant phenolic removal (60– ≥ 92%) and residual activity (∼25%). It proves the superiority of MPx over HRP, which showed insignificant removal (10–12%) under similar conditions, and no residual activity even with PEG addition. The root elongation and plant growth bioassays confirm phenolic detoxification by MPx. Readily availability of mesquite across the countries and easy preparation of MPx from leaves make this tree as a sustainable source for a low-technological solution for phenol remediation. This study is the first step towards converting a biological wound of invasive species into wisdom and strength for protecting the environment from phenol pollution.