A new enzymatic process for the treatment of phenolic pollutants

This work aimed to develop a new economic enzymatic process to treat the phenolic pollutants using pure tyrosinase in stirred vessel and adopting temperature (T), pH, rotational speed (N), initial phenol (C P,o) and enzyme (C T) concentrations as independent variables. Experimental data of the residual phenol concentration (C P) were used to calculate the oxidation efficiency (η), initial oxidation rate (-r o) and time required to reach the end of reaction (t) that were selected as the responses. Under the optimal conditions (T = 45°C, pH 6.6, N = 400 rpm, C P,o = 100 ppm and C T = 50 U/mL), η was 88.1%, -r o = 10.2 mg L-1 min-1, t = 40 min. These results suggested that tyrosinase-rich crude extracts from vegetable byproducts could be quite promising.

Phenol oxidation by mushroom waste extracts: a kinetic and thermodynamic study.

Tyrosinase activity of mushroom extracts was checked for their ability to degrade phenol. Phenol oxidation kinetics was investigated varying temperature from 10 to 60 °C and the initial values of pH, enzyme activity and phenol concentration in the ranges 4.5-8.5, 1.43-9.54 U/mL and 50-600 mg/L, respectively. Thermodynamic parameters of phenol oxidation and tyrosinase reversible inactivation were estimated. Tyrosinase thermostability was also investigated through residual activity tests after extracts exposition at 20-50 °C, whose results allowed exploring the thermodynamics of enzyme irreversible thermoinactivation. This study is the first attempt to separate the effects of reversible unfolding and irreversible denaturation of tyrosinase on its activity. Extracts were finally tested on a real oil mill wastewater.

Estudo da aplicação da tirosinase vegetal no tratamento de efluentes e verificação da genotoxicidade do efluente tratado em células vegetais / Study on tyrosinase application in the treatment of plant effluent and verification of genotoxicity of the treated effluent into plant cells

Os problemas ambientais relacionados à crescente atividade industrial têm gerado preocupações aos órgãos governamentais e entidades de proteção ambientais, sendo necessários estudos de base que busquem novas alternativas para a recuperação de áreas poluídas e a solução de problemas operacionais relacionados com as técnicas empregadas. Um dos compostos mais encontrados em diversos efluentes industriais, principalmente de indústrias bioquímico-farmacêuticas, é o fenol que provoca um impacto danoso no ambiente devido ao fato de ser um poluente tóxico. O presente trabalho propõe, portanto, avaliar a oxidação e destruição do fenol através da utilização da enzima tirosinase extraída de vegetais, cujos resultados podem ser úteis para o tratamento de outros compostos fenólicos como o hormônio 17β-estradiol ou os que se encontram nos efluentes procedentes da produção de azeite ("águas de vegetação") após a recuperação dos polifenóis importantes como antioxidantes. A tirosinase tem a capacidade de transformar fenóis em produtos menos solúveis em água e menos danosos, permitindo assim uma agressão menor ao ambiente. Outro método de remoção do fenol também foi avaliado utilizando queratina extraída de penas de galinha, quitina e quitosana como bioadsorventes. A atividade enzimática foi determinada espectrofotometricamente com soluções de fosfato de potássio e L-tirosina. Para determinar a concentração de fenol aps a oxidação foi utilizada a Cromatografia Líquida de Alta Eficiência (HPLC). Para estudar a adsorção do fenol aplicou-se o método colorimétrico a partir das soluções de tampão borato, 4 aminoantipirina e ferricianeto de potássio e as absorbâncias foram lidas em espectrofotômetro UV-Vis a 546nm, enquanto a determinação de polifenis presentes na "água de vegetação" foi realizada pelo método Folin-Ciocalteu. A quantidade de tirosinase nas batatas das variedades Ágata e Galette di Bologna apresentou-se muito baixa a ponto de modificarmos a matéria prima para...

Environmental problems related to growing industrial activity have generated concerns among government entities and environmental protection, being necessary more baseline studies that seek new alternatives for the recovery of polluted areas and solution of problems related to the operational techniques employed. One of the compounds most commonly found in many industrial effluents, mainly from biochemical and pharmaceutical industries, is phenol, which causes a detrimental impact on the environment due to its toxicity. Therefore, this work proposes the oxidation and destruction of phenol using the enzyme tyrosinase, extracted from plants, whose results could be useful in the future for the treatment of other phenolic compounds such as 17β-estradiol hormone or those found in the effluent coming from the production for olive oil ("vegetation water") after polyphenols recovery. Such an enzyme has the ability of transforming phenols into products less soluble in water and less dangerous, thereby allowing for a minor impact on the environment. Another method of phenol removal was also evaluated using keratin extracted from chicken feathers, chitin and chitosan as phenol biosorbents. Potassium phosphate buffer and L-tyrosine solutions were used for the determination of enzymatic activity, the high performance liquid chromatography (HPLC) for the determination of phenol concentration after oxidation, and a colorimetric method making use of solutions of borate buffer, 4-aminoantipyrine and potassium ferricyanide as well as reading of the absorbance at 546nm to investigate phenol biosorption, while the presence of polyphenols in "vegetation water" was determined by the Folin-Ciocalteu method. The presence of the tyrosinase in potato varieties Agata and Galette di Bologna was shown to be very low, thus suggesting to change the biosorbent material. So, additional tests were done on apples, kiwi, banana and mushroom, but only the last showed a considerable activity...