Abstract
p-Cresol is an environmental pollutant due to its vast use, toxicity and persistence, nevertheless, its degradation in an enzyme is unclear. In this study, we used Pleurotus sp. isolate VLECK02 polyphenol oxidase (PPO) for the determination of p-cresol degradation. On the basis of UV, FT-IR and chromatographic (HPLC and GC–MS) analysis, 4-methylcatechol was identified as the main metabolite of p-cresol catabolism. In addition, batch and semi-continuous degradation of p-cresol (10 and 20 mM) were studied and compared by free and immobilized PPO in different matrices like sodium alginate (SA), sodium alginate–polyvinyl alcohol (SA–PVA) and sodium alginate–polyvinyl alcohol–silver nanoparticles (SA–PVA–AgNPs). The experimental data showed that an enzyme (PPO) immobilized in SA–PVA–AgNPs was completely degraded p-cresol at initial concentrations of 10 and 20 mM within 30 h. These results suggest that the enzyme immobilized in SA–PVA–AgNPs has achieved higher degradation rates at a given time than free PPO and PPO immobilized in SA–PVA and SA. The SA–PVA–AgNPs and SA–PVA immobilized enzyme could be reused for more than 12 and 8 cycles, respectively, without losing any degradation capacity. Moreover, the immobilized PPO showed higher tolerance to various temperatures and pH than free PPO. Hence, immobilized PPO could be useful for the bioremediation of environment contaminated with phenolic compounds like p-cresol.Electronic supplementary materialThe online version of this article (doi:10.1007/s13205-016-0547-y) contains supplementary material, which is available to authorized users.
Highlights
These results suggest that the enzyme immobilized in sodium alginate (SA)–PVA–AgNPs has achieved higher degradation rates at a given time than free polyphenol oxidase (PPO) and PPO immobilized in sodium alginate–polyvinyl alcohol (SA–PVA) and SA
The aim of this study is to explore the possibility of p-cresol degradation by Pleurotus sp. isolate VLECK02 PPO immobilized on various matrices like sodium alginate (SA), sodium alginate–polyvinyl alcohol (SA–PVA) and SA–PVA–silver nanoparticles (AgNPs)
The organism was designated as Pleurotus sp. isolate VLECK02
Summary
Due to the higher water solubility, certain organic compounds like cresol or oil contained phenol melanges and some mono-aromatic hydrocarbons were considered as principle contaminants in groundwater (Flyvbjerg et al 1993; Rosenfeld and Plumb 1991). p-Cresol or 4-methylphenol [CH3C6H4(OH)] is an aromatic compound of phenol derivatives and is generally extracted from coal–tar in coal gasification plants by fractionation and various other synthetic processes (Muller et al 2001). p-Cresol is a toxic chemical, corrosive in nature, causes nervous system depression and is a common byproduct produced from tyrosine by several anaerobic organisms (Tallur et al 2006). There are reports on copper-containing enzymes like polyphenol oxidases (PPO) which catalyze the oxidation of phenol derivatives in the presence of O2 (Burton 1994; Rapeanu et al 2006) and used for the detoxification of other organic contaminants (Bollag et al 2003; Hou et al 2011; Rodriguez Couto and Toca Herrera 2006). Many previous studies used immobilized PPOs for the removal of textile dyes, non-textile dyes, aqueous phenol and phenol derivatives (Arabaci and Usluoglu 2014; Khan and Husain 2007; Loncar et al 2011; Shao et al 2009), yet, there is not much information available on oxidation of p-cresol by immobilized PPO. The aim of this study is to explore the possibility of p-cresol degradation by Pleurotus sp. isolate VLECK02 PPO immobilized on various matrices like sodium alginate (SA), sodium alginate–polyvinyl alcohol (SA–PVA) and SA–PVA–silver nanoparticles (AgNPs)
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