M. Barış PAZARBAŞI, İsmail KARABOZ, Ali KOÇYİĞİT, Güven ÖZDEMİR, İhsan YAŞA

DERİ ENDÜSTRİSİNDE KULLANILAN ÇEŞİTLİ BOYALARIN RENK GİDERİMİNDE Pleurotus ostreatus MCC07 SUŞUNUN KULLANIMI - THE USE OF Pleurotus ostreatus MCC07 STRAIN IN DECOLORIZATION OF VARIOUS DYES USED IN LEATHER INDUSTRY

DERİ ENDÜSTRİSİNDE KULLANILAN ÇEŞİTLİ BOYALARIN RENK GİDERİMİNDE Pleurotus ostreatus MCC07 SUŞUNUN KULLANIMIBu çalışmada; deri endüstrisinde kullanılan 10 farklı azo boyanın renk gideriminde, Pleurotus ostreatus MCC07 suşunun etkinlik derecesinin saptanması amaçlanmaktadır. Ülkemizde deri endüstrisinde yaygın olarak kullanılan Acid Black 24 boyasının renk giderimi, P. ostreatus MCC07 ile Nişasta Yeast Ekstrakt besiyeri kullanılarak çalkalamalı ve statik koşullar altında incelenmiştir. P. ostreatus MCC07’nin çalkalamalı koşullar altındaki yaptığı renk giderimi; % 98.7 (10. gün), statik koşullar altında ise % 80.2 (12. gün) olarak bulunmuştur. P. ostreatus MCC07 ile yapılan fiziko-kimyasal parametrelerden elde edilen sonuçlara bağlı olarak, Acid Black 24 boyasının optimum renk giderimi 27C sıcaklıkta, pH 5.0 ve 100 ppm başlangıç boya konsantrasyonunda elde edilmiştir. Katı ve sıvı kültürde lakkaz enzim aktiviteleri saptanmıştır. P. ostreatus MCC07 ile renk gideriminde, maksimum lakkaz aktivitesi 601.3 U/L (10. gün) elde edilmiştir.THE USE OF Pleurotus ostreatus MCC07 STRAIN IN DECOLORIZATION OF VARIOUS DYES USED IN LEATHER INDUSTRYIn this study, capabilities detection of Pleurotus ostreatus MCC07 strain in decolorization of ten different azo dyes which is used in leather industry were intended. Decolorization of Acid Black 24 which is used widely in leather industry in our country was investigated using Starch Yeast Extract medium under shaking and static condition with P. ostreatus MCC07. Decolorization of P. ostreatus MCC07 under shaking condition; 98.7 % (10 day), under static condition; 80.2 % (12 day) were determined. According to the results which were obtained from physico-chemical parameters using P. ostreatus MCC07, Acid Black 24 optimal decolorization rates occurred at pH 5.0, a temperature of 27°C and 100 ppm initial dye concentration. The laccase enzyme activities in solid and liquid cultures were determined. Decolorization was associated with maximum laccase activity which obtained 601.3 U/L on the tenth day of cultivation by P. ostreatus MCC07.

Anahtar Kelimeler:

Deri endüstrisi, Azo boya, Renk giderimi, Lakkaz

Deri Endüstrisinde Kullanılan Çeşitli Boyaların Renk Gideriminde Pleurotus ostreatus MCC07 Susunun Kullanımı

Keywords:

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Welham, A., “The theory of dyeing (and the secret of life)”, Journal of the Society of Dyers and Colourists, 116: 140-143 (2000).
Novak, J.T., Hoehn, R.C., Randall, C.W. and Wallace, T.H., “Biological treatment of a synthetic dye water and an industrial textile wastewater containing azo dye compounds”, Master Thesis, Blacksburg, Virginia, 79p. (2001).
Karaoğlu, F., “Benzidin ve Analoglarının Toprak Mikroflorası ve Enzimatik Aktivitesi Üzerine Etkileri”, , Doktora tezi, Ege Üniversitesi, Fen Bilimleri Enstitüsü, İzmir, 112s. (2008).
Banat, I.M., Nigam, P., Singh, D. and Marchant, R., “Microbial Decolorization of Textile-Dye Containing Effluents”, Bioresource Technology, 58: 217-227 (1996).
Kocaer, F.O. ve Alkan, U., “Boyar Madde İçeren Tekstil Atıksularının Arıtım Alternatifleri, Uludağ
Fakültesi Dergisi”, Cilt 7, Sayı 1: 47-55 (2002).
Mühendislik-Mimarlık [6] Fu, Y. and Viraraghavan, T., “Fungal Decolorization of Dye Wastewaters”, Bioresource Technology, 79: 251-262 (2001).
Axelsson, J., Nilsson, U., Terrazas, E., Aliaga, T.A. and Welander, U., “Decolorization of the textile dyes Reactive Red 2 and Reactive Blue 4 using Bjerkandera sp. Strain BOL 13 in a continuous rotating biological contactor reactor”, Enzyme and Microbial Technology, 39: 32–37 (2006).
Revankar, M.S. and Lele, S.S., “Synthetic dye decolorization by white rot fungus, Ganoderma sp. WR-1”, Bioresource Technology, 98: 775–780 (2007).
Hou, H., Zhou, J., Wang, J., Du, C. and Yan, B., “Enhancement of laccase production by Pleurotus ostreatus and its use for the decolorization of anthraquinone dye”, Process Biochemistry, 39: 1415–1419 (2004).
Maalej-Kammoun, M., Zouari-Mechichi, H., Belbahri, L., Woodward, S. and Mechichi, T., “Malachite green decolourization and detoxification by the laccase from a newly isolated strain of Trametes sp.”, International Biodeterioration and Biodegradation, 63: 600–606 (2009).
Srinivasan, S.V. and Murthy, D.V.S., “Statistical optimization for decolorization of textile dyes using Trametes versicolor”, Journal of Hazardous Materials, 165: 909–914 (2009).
Kiiskinen L., Ratto L. and Kruus M.K., “Screening for novel laccase producing microbes”, Journal Applied Microbiology, 97: 640-646 (2004). [13] Eichlerova, I., Homolka, L. and Nerud, F., “Ability of industrial dyes decolorization and ligninolytic enzymes production by different Pleurotus species with special attention on Pleurotus calyptratus, strain CCBAS 461”, Process Biochemistry, 41: 941-946 (2006).
Hernandez, M., Rodriguez, J., Soliveri, J., Copa, J. L., Perez, M. I. and Arias, M. E., “Paper Mill Decolorization by Fifty Streptomyces Strains, Applied and Enviromental Microbiology”, 60: 3909-3913 (1994).
Tien, M. and Kirk, T.K., “Lignin Peroxidase of Phanerochaete
enzymology, 161: 238-249 (1988).
Methods in [16] Verma, P. and Madamwar, D., “Decolorization of azo dyes using Basidiomycete strain PV 002”, World Journal of Microbiology and Biotechnology, 21: 481–485 (2005).
Erkurt, E.A., Unyayar, A. and Kumbur, H., “Decolorization of synthetic dyes by white rot fungi, involving laccase enzyme in the process”, Process Biochemistry 42: 1429–1435 (2007).
Nyanhongo, G.S., Gomes, J., Gubitz, G.M., Zvauya,
“Decolorization of textile dyes by laccases from a newly isolated strain of Trametes modesta”, Water Research, 36: 1449–1456 (2002). Steiner,
W., [19] Fu, Y. and Viraraghavan, T., “Removal of Congo Red from an aqueous solution by fungus Aspergillus niger, Advances in Environmental Research”, 7: 239-247 (2002).
Bains, J., Capalash, N. and Sharma, P., “Laccase from a non melanogenic, alkotolerant - proteobacterium JB isolated from industrial wastewater drained soil”, Biotechnology Letters, 25: 1155-1159 (2003).
Dhoulib, A., Hamza, M., Zouari, H., Mechichi, T., H’midi, R., Labat, M., Martinez, M.J., and Sayadi, S., “Autochthonous fungal strains with high ligninolytic activities from Tunisian biotopes”, African Journal of Biotechnology, 4: 431-436 (2005).
Revankar, M. S., and Lele, S.S., “Enhanced production of laccase using a new isolate of white rot fungus WR-1”, Process Biochemistry, 41: 581– 588 (2006).
Bora, P., “Production of laccase by the phytopathogenic fungus Rhizoctonia solani”, PhD Thesis, 176p. (2003) [24]
“Decolorization of azo dyes by Phanerochaete chrysosporium and Pleurotus sajorcaju”, Enzyme and Microbial Technology, 29: 473–477 (2001).
Eichlerova, I., Homolka, L. and Nerud, F., “Decolorization of high concentrations of synthetic dyes by the white rot fungus Bjerkandera adusta strain CCBAS 232”, Dyes and Pigments, 75: 38-44 (2007).
Park, C., Lee, M., Lee, B., Kim, S.W., Chase, H.A., Lee, J. and Kim, S., “Biodegradation and biosorption for decolorization of synthetic dyes by Funalia trogii”, Biochemical Engineering Journal, 36: 59-65 (2007).
Radha, K.V., Regupathi, I., Arunagiri, A. and Murugesan, T., “Decolorization studies of synthetic dyes using Phanerochaete chrysosporium and their kinetics”, Process Biochemistry, 40: 3337–3345 (2005).
Mechichi, T., Mhiri, N. and Sayadi, S., “Remazol Brilliant Blue R decolourization by the laccase from Trametes trogii”, Chemosphere, 64: 998-1005 (2006).
Zeng, X., Cai, Y., Liao, X., Zeng, X., Li, W. and Zhang, D., “Decolorization of synthetic dyes by crude laccase from a newly isolated Trametes trogii strain cultivated on solid agro-industrial residue”, Journal of Hazardous Materials, 187: 517-525 (2011). [30]
“Biodegradation of Congo Red by Phanerochaete chrysosporium”, Water Research, 32 (5): 1713- 1717 (1998). and Bumpus,
J.A., [31] Wong, Y. and Yu, J., “Laccase-Catalyzed Decolorization of Synthetic dyes”, Water Research, 33 (16): 3512-3520 (1999).
Geliş Tarihi: 16/03/2011
Kabul Tarihi: 21/09/2011