Abstract
BackgroundDye wastewater increases cancer risk in humans. For the treatment of dyestuffs, biodegradation has the advantages of economy, high efficiency, and environmental protection compared with traditional physical and chemical methods. Laccase is the best candidate for dye degradation because of its multiple substrates and pollution-free products.MethodsHere, we modified the laccase gene of Bacillus licheniformis by error-prone PCR and site-directed mutagenesis and expressed in E. coli. The protein was purified by His-tagged protein purification kit. We tested the enzymatic properties of wild type and mutant laccase by single factor test, and further evaluated the decolorization ability of laccase to acid violet, alphazurine A, and methyl orange by spectrophotometry.ResultsMutant laccase Lacep69and D500G were superior to wild type laccase in enzyme activity, stability, and decolorization ability. Moreover, the laccase D500G obtained by site-directed mutagenesis had higher enzyme activity in both, and the specific activity of the purified enzyme was as high as 426.13 U/mg. Also, D500G has a higher optimum temperature of 70 °C and temperature stability, while it has a more neutral pH 4.5 and pH stability. D500G had the maximum enzyme activity at a copper ion concentration of 12 mM. The results of decolorization experiments showed that D500G had a strong overall decolorization ability, with a lower decolorization rate of 18% for methyl orange and a higher decolorization rate of 78% for acid violet.ConclusionCompared with the wild type laccase, the enzyme activity of D500G was significantly increased. At the same time, it has obvious advantages in the decolorization effect of different dyes. Also, the advantages of temperature and pH stability increase its tolerance to the environment of dye wastewater.
Highlights
Laccases, a copper-containing polyphenol oxidase, belong to the superfamily of blue poly copper oxidases (MCOs) (Morozova et al, 2007; Hakulinen & Rouvinen, 2015)
Nucleotide sequencing of the plasmid extracted from the positive transformant confirmed that laccases gene (Lac)’s ORF contains 1,542 bp that theoretically encode 513 amino acids with a molecular weight of about 60 kDa. (Data S1) The protein sequence has a 99% identity to the Lac gene of B. licheniformis (MK427697.1)
We found that under low temperature and low concentration inducer conditions, the recombinant Lac was mainly expressed in a soluble state but has a low content in the precipitate
Summary
Laccases (phenol-oxygen oxidoreductase; EC 1.10.3.2), a copper-containing polyphenol oxidase, belong to the superfamily of blue poly copper oxidases (MCOs) (Morozova et al, 2007; Hakulinen & Rouvinen, 2015). Improving decolorization of dyes by laccase from Bacillus licheniformis by random and site-directed mutagenesis. Polyphenols (Koschorreck et al, 2008; Zeng et al, 2011; Revanth, Niranjan & Sarma, 2020), polycyclic aromatic hydrocarbons, certain inorganic substances, and more As a result, they are widely used for the decolorization of synthetic dyes (Pereira et al, 2009; Mendes et al, 2011), synthesis of organic substances, food processing, biosensor (Zhang et al, 2019), and other fields. Mutant laccase Lacep and D500G were superior to wild type laccase in enzyme activity, stability, and decolorization ability. The laccase D500G obtained by site-directed mutagenesis had higher enzyme activity in both, and the specific activity of the purified enzyme was as high as 426.13 U/mg. The advantages of temperature and pH stability increase its tolerance to the environment of dye wastewater
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