Characterization of Polyphenol Oxidase Application as Phenol Removal in Extracts of Rejected White Oyster Mushrooms ( Pleurotus ostreatus )

Postharvest browning of edible mushrooms is related to oxidation of phenolic compounds by endogenous enzymes. Polyphenol oxidase (PPO) was isolated from rejected white oyster mushrooms (Pleurotus ostreatus) as a crude PPO extract using 50 mM of citrate buffer at pH 7 and 20 oC, which is active against phenol and catechol as substrates. PPO activity was 79.23 U/mL (0.3 mM phenol) and 49.14 U/mL (0.2 mM catechol) at initial rates measured using UV-Vis spectrophotometry. Protein content (using the Biuret method) in crude PPO extract was 3.15 mg/mL, and the specific activity of PPO was 25.15 U/mg (0.3 mM phenol) and 15.60 U/mg (0.2 mM catechol). PPO extract was effective in reducing phenol content by 10.63 to 12.07% for each 5 mL of crude PPO extract added to an artificial solution containing 10.00 mg/L of phenol. In addition, Fourier transform infrared spectra of pure and crude PPO were analyzed based on protein functional groups. We conclude that white oyster mushroom PPO extracts may have a potential for removal of phenolic compounds in bioremediation and in the food and drug industries.


INTRODUCTION
M u s h r o o m s a r e a s p e c i a l group of macroscopic fungi that have been used as a food source since ancient times.Oxidative browning of mushrooms involves the actions of a group of enzymes generally referred to as polyphenol oxidase (PPO) 1 which, with phenolic compounds, are in general directly responsible for enzymatic browning reactions in damaged fruits during postharvest handling and processing.A relation between rate of browning, phenolic content, and PPO activity has been reported for various fruits 1 .PPO, also known as tyrosinase, phenolase, catechol oxidase, catecholase, o-diphenol oxidase, monophenol oxidase, and cresolase, was discovered in mushrooms in 1856 by Schoenbein 2 .PPO has the ability to oxidize phenols and thus cause browning of plant extracts and bruised plant tissues.In general, PPO is present in very high concentrations in plants, vegetables, and fruits such as mushrooms, potato tubers, apples, bananas, avocados, tea leaves, coffee beans, and tobacco leaves 2 .Melanins, produced as a consequence of PPO activity, may exhibit antibacterial, antifungal, anticancer, and antioxidant properties 1 .Plant PPOs have broad substrate specificities and are able to oxidize a variety of mono, di, or polyphenols.The mechanism of action proposed for PPO is based on its capacity to oxidize phenolic compounds 3 .PPO (EC 1.10.3.1;o-diphenol oxidoreductase) is an oxidoreductase capable of oxidizing phenol compounds by employing oxygen as a hydrogen acceptor 1 .The enzyme can use a number of monophenols and polyphenols plus oxygen as shown in equations 1 and 2 2 : PPO is included in the class of enzymes that have a copper dimer with histidine ligands in the active site, and the catalytic cycle of PPO has been investigated by Siegbahn 4 and Klabunde et al., 5 that reported the structure of PPO from sweet potato.
Copper is a transition element frequently found at the active site of proteins, and copper-containing enzymes and proteins constitute an important class of biologically active molecules 6 .Mushroom PPO were subjected to further characterization studies in terms of biochemical characteristics and potential for biotechnological applications.Mushrooms contain a large amount of phenolic compounds which are readily oxidized during homogenization.After successive oxidation and polymerization of phenolic compounds in the mushroom extract, macromolecules of melanin are formed 7,8 .These melanin molecules have biochemical characteristic dependent on PPO activity, protein content, and specific activity, which has been studied in terms of substrate, optimum pH, and incubation temperature using crude PPO.PPO, active between pH 5 and 7, does not have a very sharp pH optimum 1 .Because mushrooms are highly perishable commodities that start deteriorating immediately within a day after harvest 9 , PPO activity is studied to improve methods for controlling browning reactions, which is important to increase product value and minimize post-harvest losses 3 .Crude PPO extracts have been used in artificial solutions containing phenols.According to Aitken et al., 10 , these enzymes are highly selective biocatalysts and therefore have been proposed as a means to remove targeted substances from wastewaters.Phenolic compounds are major environmental pollutants because of their widespread use and potential toxicity to organisms, plants, and animals 11,12 .PPO may also find applications in the food or drug industries 13 .PPO can also be used for the bioremediation of phenolic contaminants from industrial wastewater 12 .
In this study, crude PPO extracts of rejected white oyster mushrooms were characterized in terms of PPO activity, protein quantity, and specific activity in a 50 mM citrate buffer at varying pH and incubation temperatures.

Materials and Chemicals
Rejected white oyster mushrooms (Pleurotus ostreatus) were obtained from Parongpong, Cimahi (West-Java Indonesia) and frozen at -

Preparation of Crude PPO Extract from White Oyster Mushroom
Rejected white oyster mushrooms (50 g) were cut into small pieces, dissolved in 50 mL 50 mM citrate buffer (containing 0.5% (w/v) triton X-100, 2 mM EDTA, 1 M NaCl, and 0.5% (w/v) PVP), and homogenized for 10 min.at 4 0 C at different pH (6.8, 7.0, and 7.2).The supernatant was filtered using a thin cloth and then centrifuged at 12.000 rpm for 20 minutes.The supernatant containing PPO was used as the crude PPO extract, which was incubated for 30 min at different temperatures (10, 15, 20, 25, and 30 0 C).

PPO Activity Assay
PPO activity was determined using a spectrophotometric method 2 with phenol and catechol as substrates as previously described 14 and modified according to a Sigma procedure for commercial preparation 15 .Units of PPO activity were measured at initial rates and using a double beam UV-Vis-nir scanning spectrophotometer (UV-Vis 1800, Shimadzu).
Crude PPO extract (0.1 mL) was mixed with substrate at varying concentrations (0.20 -0.40 mM) and dissolved in 3 mL of 50 mM citrate buffer containing 2.1 mM ascorbic acid and 0.65 mM EDTA.Optimum PPO activity was determined by varying pH (6.8-7.2) and incubation temperature (10-30 o C).PPO activity (U/mL) obtained in the assay was estimated by the initial rate of reaction and expressed as absorbance curve (A) vs time (s) 14 .Multiplying the activity (U/mL) and total volume (mL) gives the total activity (U) 16 .Calculation of PPO activity is described in equation 3, as follows:

Protein Content and Specific Activity
Protein concentration in the white oyster mushroom extract was determined using the Biuret method with BSA as the standard solution 16 .Crude PPO extract (1 mL) was added to 9 mL of biuret reagent and incubated for 30 min.and the absorbance curve was obtained spectrophotometrically at maximum wavelength of BSA.Protein content (mg/mL) was determined using a BSA standard curve (wavelength 400-600 nm).Total protein (mg/mL x mL=mg) and specific activity (U/mg) were measured comparing PPO activity (U/mL) and protein content (mg/mL) 16 .

Removal of Phenolic Compounds using White Oyster Mushroom Extracts
R e m o va l o f p h e n o l i c c o m p o u n d s using crude PPO extracts was measured using the 4-aminoantipyrine method and UV-Vis spectrophotometry 17 , with modifications.Artificial solution containing 10 mg/L phenol were placed into ten 250-mL beaker glasses.To each solution was added crude PPO extract (0.50 to 50.00 mL).The mixtures were centrifuged to remove the precipitate formed, let stand for 24 h, and then dissolved in 100 mL of 50 mM citrate buffer solution pH 7 (2.5 mL of 0.5 N NH 4 OH, 1 mL of 4-aminoantipyrine, and 1 mL of K 3 Fe(CN) 6 ).Sample absorbance was measured spectrophotometrically using the standard curve and the phenol concentration (mg/L) was calculated.

PPO Activity in Crude PPO Extract
Polyphenol Oxidase crude extracts were successfully produced with a yield of as much as 80 % of the initial amount (50 mL) of rejected white oyster mushroom (50 g) by homogenization and centrifugation.Mushrooms (50 g/50 mL) were homogenized with the same composition as previously described 18 .Units of PPO activity were determined using the initial rates method by measuring changes in substrate concentration because enzyme behavior often follows hyperbolic Michaelis-Menten kinetics 19 , where the initial rate of the enzymatic reaction is proportional to the concentration of the enzyme 7 .
Polyphenol Oxidase and total activities in white crude PPO extracts using phenol and catechol as substrates at varying concentrations and pH are shown in Fig. 1 and 2. The highest PPO (79.23 U/mL, 3961.50U, 0.30 mM phenol) and total (49.14U/mL; 2457 U; 0.20 mM catechol) activities were achieved at 50 mM of citrate buffer solution and pH 7.0.PPO activity can be observed based on equation 3 and can be monitored from the curve of the initial rates of spectrophotometry data of absorbance versus time as shown in Fig. 3(i) and 3(ii).PPO activity can be monitored of the decrease of concentration of phenol and cathecol using PPO extract at pH 7.0.In our results, rejected white oyster mushroom extracts showed a higher PPO activity with phenol compared to catechol as substrate, thus affecting protein content and specific activity.Therefore, PPOs from new sources are useful to explain their biochemical properties and behavior 13 .Haghbeen et al., 8 have described crude PPO extracts from edible mushroom using 410 mL 10 mM of phosphate buffer solution with an optimum pH of 6.8 (0.87 U/mL, 1640.00U, 0.3 mM phenol).Previous findings were identical to that reported by Öz et al., 13 with respect to optimum pH (7.0) and temperature (20 o C) of purified PPO of Lactarius piperatus using catechol as substrate.An optimum pH of 7.0 for tyrosinase from Agaricus bisporus using phosphate buffer was also reported 7 .
Calculation of PPO activity is described in equation 3, one unit (U) of PPO activity is defined as the amount of enzyme that decreases the concentration of substrate by one μmol per min.with a corresponding change in absorbance (A= 0.001; PPO λmax= 257.2 nm) as shown in Fig. 3 (i) and 3 (ii).The kinetic properties of the initial rate can be observed in the graphs of absorbance vs [phenol] (phenol λmaks= 258.8 nm; standard curve equation: 1.493 x + 0.008; R 2 = 0.99) and of absorbance vs catechol (catechol λmaks= 269.8 nm; standard curve equation: y= 2.220 x + 0.026; R 2 = 0.99).

Protein Content and Specific Activity in White Oyster Mushroom Extract
Colorimetric methods exploit the properties of specific proteins, the presence of specific amino acid functional groups, or the presence of peptide bonds 1 .Protein content and total protein in white oyster mushroom extracts were determined as 3.15 mg/mL and 157.5 mg, respectively, using the Biuret method and a standard curve (λmax= 540 nm; standard curve equation: y= 0.2455 + 0.1567; R= 0.99).The specific activity profile is shown in Fig. 4. The highest specific activity was achieved under optimal conditions of pH 7.0 and enzyme and substrate concentrations (25.15 U/mg and 0.3 mM phenol; 15.60 U/mg and 0.2 mM catechol).
Öz et al., 13 determined the protein contents in PPO crude mushroom extracts to be an average of 0.18 ± 0.02 mg/mL using a BSA standard (λmax= 650 nm) and the Lowry method.We found the specific activity of crude PPO extract and purified PPO to be 1.92 and 26.67 U/mg, respectively.Zaidi et al., 7 reported the total protein, PPO activity, total activity, and specific activity of crude PPO extract from button mushroom to be 321.40mg, 2.56 U, 1021 U, and 3.189 U/mg, respectively.Thermal Stability of PPO Temperature and pH also affect PPO activity 2. Our results show that incubation temperature (10-30 o C) affected the activity and specific activity of crude PPO extracts.Fig. 5 shows the effect of incubation temperature on PPO activity using phenol and catechol as substrates (0.20 -0.40 mM).The highest PPO activity was observed under optimal conditions of 20 °C, pH 7, and extract and substrate concentrations (79.23 U/mL and 0.3 mM phenol; 49.11 U/mL and 0.20 mM catechol).This effect can also be observed in the chart of temperature ( o C) vs total activity (U) using phenol and catechol as substrates, as shown in Figure 6.At 20 o C, the optimum temperature, total PPO activity against phenol and catechol was 3961.5 and 2455.5 U, respectively.In addition, at pH 7, the chart of specific activity vs. incubation temperature in Fig. 7 shows that the highest value was achieved at 20 °C (25.15 U/mg and 15.59 U/mg with phenol and catechol as substrates, respectively).
Thermal stability of crude PPO extracts was achieved at 20 °C (25.15 U/mg, 0.30 mM phenol; 15.60 U/mg, 0.20 mM catechol).These results are consistent with those of Öz et al., 13 , who described the optimum temperature of L. piperatus PPO as 20 °C when assayed between 10 and 80 o C using catechol as substrate.

Removal of Phenolic Compounds using Crude PPO Extract
Table 1 shows the reduction of phenol concentration in an artificial solution containing 10.00 mg/L of phenol with the addition of crude PPO extract (0.50 to 50.00 mL) under optimal conditions (pH 7.0; The fur ther research for scale-up investigations, it needs to be studied the performance of crude PPO extract to degradate from industrial waste contaminated phenol.The effectiveness of PPO performance in the process of degradation of phenol to quinone, is expected to be more effective, when PPO is immobilized in a polypyrrole (PPy) film.The thin PPy film has been studied on the steel gauze by electropolimerization with cyclic voltammetry in 10 cycles of cyclic voltammogram 20 .Meanwhile, immobilization of PPO in PPy thin film can be studied based on the strength of PPO as dopant during electropolymerization process of PPy film growth as modified PPy 21 .

CONCLUSION
Crude PPO extracts from were obtained with a yield of as much as 80% of the initial amount (50 g/50 mL).The biochemical characteristics of PPO in these extracts were studied by monitoring their activity (activity, total activity, protein content, total protein, and specific activity) using phenol and catechol as substrates.PPO activity was higher with phenol as substrate.The optimal conditions for the crude PPO extract were a buffer citrate solution at pH 7 and 20 o C. In addition, crude PPO extract activity converted more than 90% of phenol to quinone in an artificial solution containing 10 mg/L of phenol.PPO extracts from white oyster mushrooms may thus have a potential for removal of phenolic compounds in bioremediation and in the food and drug industries.Further research is needed for the effective performance of crude PPO extract in the degradation of phenol wastewater.
absorbance vs [substrate] of standard curve of substrate = slope of absorbance vs time (min) of the initial rate

Figure 8 .
Figure 8. Fourier transform infrared spectra of crude polyphenol oxidase extract