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Comparison of horseradish peroxidase, soybean peroxidase and radish peroxidase for the polymerization of phenol
Vol 1 No 7 (2011), Articles
Vol 1 No 7 (2011)

Comparison of horseradish peroxidase, soybean peroxidase and radish peroxidase for the polymerization of phenol

Articles
Published November 7, 2011
Pradeep NV
M.Tech Scholar, Dept of Civil Engg, K.L.E’s College of Engineering and Technology, Belgaum, India
Hampannavar US
Professor, Dept of Civil Engg, K.L.E’s College of Engineering and Technology, Belgaum, India.
Anupama
M.Tech Scholar, Dept of Civil Engg, K.L.E’s College of Engineering and Technology, Belgaum, India
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Keywords

Horseradish peroxidase (HRP)
soybean peroxidase (SBP)
radish peroxidase (RP)
phenol
enzymes for phenol degradation

How to Cite

NV, P., US, H., & Anupama. (2011). Comparison of horseradish peroxidase, soybean peroxidase and radish peroxidase for the polymerization of phenol. Journal of Research in Biology, 1(7), 503-507. Retrieved from https://ojs.jresearchbiology.com/index.php/jrb/article/view/133
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Abstract

Polymerization of Phenol was carried out in laboratory using peroxidase enzyme extracted from three different plant sources namely, horseradish roots, soybean hulls and radish roots. The ambient room temperature during the study period was between 27-32oC. Phenol concentration of 100 - 300 mg/L was given to the free enzymes. Phenol polymerization of 84% was achieved at 100 mg/L phenol using free HRP enzyme. Similarly, 72% and 76% phenol polymerization was obtained using free SBP and RP respectively at 100 mg/L phenol. Peroxidase isolated from horseradish roots was able to polymerize phenol more efficiently than the enzymes isolated from soybean hulls and radish roots. As the concentration of phenol increased, reduction in phenol polymerization efficiency was observed for all the three enzymes

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References

Bodalo A, Gomez JL, Gomez E, Bastida J and Maximo MF. 2006. Comparison of commercial peroxidases for removing phenol from water solutions. Chemosphere 3:626-632.

Carlos R, Blanca EGA and Miguel ADV. 2004. Biotechnological applications of peroxidases. Phytochemistry Reviews 3:243-256.

Caza N, Bewtra JK, Biswas N and Taylor KE. 1999. Removal of Phenolic compounds from synthetic wastewater using soybean peroxidase. Water research 33:3012-3018.

Dannis M. 1951. Determination of Phenols by the Amino-Antipyrine Method. Sewage and Industrial Wastes 23:1516-1522.

Ensuncho L, Cuenca MA and Legge RL. 2005. Removal of aqueous phenol using immobilized enzymes in a bench scale and pilot scale threephase fluidized bed reactor. Bioprocess and Biosystem Engineering 27:185-191.

Guoping Z and James AN. 2000. Treatment of aqueous pentachlorophenol by horseradish peroxidase and hydrogen peroxide. Water research 34:1629-1637.

Hamid M and Rehman K. 2009. Potential applications of peroxidases. Food Chemistry 115:1177-1186.

Humaira A and Qayyum H. 2009. Removal of αnaphthol and Other Phenolic Compounds from Polluted Water by White Radish (Raphanus sativus) Peroxidase in the Presence of an Additive, Polyethylene Glycol. Biotechnology and Bioprocess Engineering 14:536-542.

Iran A and Siamak N. 2009. Removal of Phenols with Encapsulated Horseradish Peroxidase in Calcium Alginate. Iran Journal of Chemical Engineering 28:43-49.

Lai YC and Lin SC. 2005. Application of immobilized horseradish peroxidase for the removal of p-chlorophenol from aqueous solution. Process Biochemistry 40:1167-1174.

Monika W and James AN. 2002. Detoxification of phenolic solutions with horseradish peroxidase and hydrogen peroxide. Water Research 36:4041-4052.

Mossallam KF, Sultanova FM and Salimova NA. 2009. Enzymatic removal of phenol from produced water and the effect of petroleum oil content. Thirteenth International Water Technology Conference, Hurghada, Egypt. 1009-1020.

Naghibi F, Pourmorad F, Honary S and Shamsi M. 2003. Decontamination of Water Polluted with Phenol Using Raphanus sativus Root. Iranian Journal of Pharmaceutical Research 2:29-32.

Sadasivam S and Manickan A. 2004. Biochemical Methods. New Age Publishers, New Delhi, 2nd edition.

Standard Methods for Examination of Water and Wastewater. 1995. 19 th Edition. Prepared and Published by American Public Health Association, American Water Works Association, Water Pollution Control Federation.

Tyman JHP. 1996. Synthetic and natural phenols. Elsevier Science B.V.

Wilberg K, Assenhaimer C and Rubio J. 2002. Removal of aqueous phenol catalysed by a low purity soybean peroxidase. Journal of Chemical Technology and Biotechnology 77:851-857.

Wilberg KQ, Nunes DG and Rubio J. 2000. Removal of Phenol by Enzymatic oxidation and Floation. Brazilian Journal of Chemical Engineering 77:1-13.

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