Abstract
Laccase have been mainly studied in wood rot fungal species of the basidiomycetes family especially
in white rot fungi. Studies in other fungal families are largely lacking. This study has evaluated laccase
activity from
Trichoderma reesei
in catechol based medium. Results showed that laccase enzyme from
T.reesei
was active in acidic pH range and that optimum pH was 4.5. The optimum temperature of
laccase from
T. reesei was also 270C. Laccase activity in medium containing 10 gL-1
catechol was 1.22
U ml
-1, which was more than 6 times higher than in medium containing 10 gL-1
glucose. Laccase activity
of
T.reesei was also determined in different catechol concentrations. At a concentration of 15 gL-1
,
laccase activity slightly decreased and the obtained maximum activity was 1.1 Uml
-1
. Laccase activity
of
T. reesei
was found higher than glucose, in the medium containing catechol as carbon source.
Laccase have been mainly studied in wood rot fungal species of the basidiomycetes family especially
in white rot fungi. Studies in other fungal families are largely lacking. This study has evaluated laccase
activity from
Trichoderma reesei
in catechol based medium. Results showed that laccase enzyme from
T.reesei
was active in acidic pH range and that optimum pH was 4.5. The optimum temperature of
laccase from
T. reesei was also 270C. Laccase activity in medium containing 10 gL-1
catechol was 1.22
U ml
-1, which was more than 6 times higher than in medium containing 10 gL-1
glucose. Laccase activity
of
T.reesei was also determined in different catechol concentrations. At a concentration of 15 gL-1
,
laccase activity slightly decreased and the obtained maximum activity was 1.1 Uml
-1
. Laccase activity
of
T. reesei
was found higher than glucose, in the medium containing catechol as carbon source.
Laccase have been mainly studied in wood rot fungal species of the basidiomycetes family especially
in white rot fungi. Studies in other fungal families are largely lacking. This study has evaluated laccase
activity from
Trichoderma reesei
in catechol based medium. Results showed that laccase enzyme from
T.reesei
was active in acidic pH range and that optimum pH was 4.5. The optimum temperature of
laccase from
T. reesei was also 270C. Laccase activity in medium containing 10 gL-1
catechol was 1.22
U ml
-1, which was more than 6 times higher than in medium containing 10 gL-1
glucose. Laccase activity
of
T.reesei was also determined in different catechol concentrations. At a concentration of 15 gL-1
,
laccase activity slightly decreased and the obtained maximum activity was 1.1 Uml
-1
. Laccase activity
of
T. reesei
was found higher than glucose, in the medium containing catechol as carbon source.
Laccase have been mainly studied in wood rot fungal species of the basidiomycetes family especially
in white rot fungi. Studies in other fungal families are largely lacking. This study has evaluated laccase
activity from
Trichoderma reesei
in catechol based medium. Results showed that laccase enzyme from
T.reesei
was active in acidic pH range and that optimum pH was 4.5. The optimum temperature of
laccase from
T. reesei was also 270C. Laccase activity in medium containing 10 gL-1
catechol was 1.22
U ml
-1, which was more than 6 times higher than in medium containing 10 gL-1
glucose. Laccase activity
of
T.reesei was also determined in different catechol concentrations. At a concentration of 15 gL-1
,
laccase activity slightly decreased and the obtained maximum activity was 1.1 Uml
-1
. Laccase activity
of
T. reesei
was found higher than glucose, in the medium containing catechol as carbon source.
Keywords
References
- Assavanig A., Amornikitticharoen B., Ekpaisal N., Meevootisom V., Flegel T.W. (1992) Isolation characterization and function of laccase from Trichoderma. Applied Microbiology and Biotechnology 38: 198-202.
- Baldrian P. ( 2006) Funcal Laccases-Ocurrence and Properties. FEMS Microbiolology Reviews 30: 215-242.
- Bradford M.M. (1976) A rapid and sensetive method for detecting microgram amount of protein utilizing the principle of protein –dye binding. Analytical Biochemistry, 72: 248-2
- Brijwani K., Rigdon A., Vadlani P.V. (2010) Fungal laccase: Production function and applications in food processing, Enzyme Research, DOI: 10.4061/2010/149748.
- Desai S.S., Nityanand C. (2011) Microbial Laccases and their applicatio: A review, Asian Journal of Biotechnology, 3: 98-124.
- Gochev V.K. , Krastanov A.I. (2007) Isolation of Laccase Producing Trichodema Spp. Bulgarian Journal of Agriculture Science, 13: 171-176.
- Eggert C., Temp U., Dean J.F.D., Eriksson K.E.L. (1996) A fungal metabolite mediates degredation of nonphenolic lignin structures and synthetic lignin by laccase. FEBS Letters, 391: 144-148.
- Harman G.E., Herrera-Estrella A.H., Horwitz B.A., Lorito M. (2012) Special Issue: Trichoderma-from Basic Biology to Biotechnology. Microbiology, 158: 1-2.
- Hölker U., Dohse J., Höfer M. (2002) Extracellular laccases in ascomycetes Trichoderma atroviride and Trichoderma harzianum. Folia Microbiologica, 47: 423-427.
- Kahraman S.S., Gurdal I.H. (2002) Effect of synthetic and natural culture media on laccase production by white rot fungi, Bioresource Technology, 82: 215-217.
- Kunamneni A., Plou F.J., Ballesteros A., Alcalde M. (2008) Laccases and their applications: A Patent Review, Recent Patent on Biotechnology, 2: 10-24.
- Pazarlıoğlu N.K., Sarişik M., Telefoncu A. (2005) Laccase:Production by Trametes versicolor and Application to Denim Washing. Process Biochemistry, 40: 167316
- Rigo M., Alegre R.M., Bezerra J.R.M.V., Coelho N., Bastos R.G. (2010) Catechol biodegredation kinetics using Candida parapsilosis. Brazillian Archive Biology and Technology ,53: 481-486.
- Rodriguez C.S., Herrara F.L.T. (2006) Industrial and biotechological applications of laccase. Biotechnology Advances, 24: 5005
- Thurston C.F. (1994) The structure and function of fungal laccases. Microbiology, 140: 19Velazquez-Cedeno M.A., Farnet A.M., Ferre E
- &Savoie J.M. (2004) Variations of lignocellulosicactivities in dual cultures of pleurotus ostreatus and Trichoderma longibrachiatum on unsterilized wheat straw. Mycologia, 96: 712-719.
Abstract
Basidiomycetes sınıfında bulunan beyaz çürükçül mantarlar en çok çalışılmış lakkaz üreten mantarlardır. Diğer mantar ailelerinde lakkaz enzimi ile ilgili araştırmalar büyük ölçüde eksiktir. Bu çalışmada, Trichoderma reesei küf mantarında ve kateşol içeren ortamda lakkaz aktivitesi incelendi. Deneysel çalışmadan elde edilen sonuçlara göre, Trichoderma reesei’de lakkaz enziminin asidik pH’da aktif olduğu gözlendi. Lakkaz enziminin optimum pH’sı 4.5 olarak belirlendi. Trichoderma reesei’de lakkaz enziminin optimum sıcaklığı da 27ºC’olarak tespit edildi. 10 gL kateşol içeren ortamda, Trichoderma reesei’de lakkaz enziminin aktivitesi 10gL glukoz içeren ortam’a göre 6 kat daha fazla bulundu. Lakkaz aktivitesi 1,22 U ml olarak belirlendi. Trichoderma reesei’de lakkaz aktivitesi farklı kateşol konsantrasyonları için de tespit edildi. 15gL kateşol konsantrasyonunda lakkaz aktivitesinin azaldığı gözlendi. 15gL kateşol konsantrasyonunda maksimum lakkaz aktivitesi 1,1 UmL olarak belirlendi.
Keywords
References
- Assavanig A., Amornikitticharoen B., Ekpaisal N., Meevootisom V., Flegel T.W. (1992) Isolation characterization and function of laccase from Trichoderma. Applied Microbiology and Biotechnology 38: 198-202.
- Baldrian P. ( 2006) Funcal Laccases-Ocurrence and Properties. FEMS Microbiolology Reviews 30: 215-242.
- Bradford M.M. (1976) A rapid and sensetive method for detecting microgram amount of protein utilizing the principle of protein –dye binding. Analytical Biochemistry, 72: 248-2
- Brijwani K., Rigdon A., Vadlani P.V. (2010) Fungal laccase: Production function and applications in food processing, Enzyme Research, DOI: 10.4061/2010/149748.
- Desai S.S., Nityanand C. (2011) Microbial Laccases and their applicatio: A review, Asian Journal of Biotechnology, 3: 98-124.
- Gochev V.K. , Krastanov A.I. (2007) Isolation of Laccase Producing Trichodema Spp. Bulgarian Journal of Agriculture Science, 13: 171-176.
- Eggert C., Temp U., Dean J.F.D., Eriksson K.E.L. (1996) A fungal metabolite mediates degredation of nonphenolic lignin structures and synthetic lignin by laccase. FEBS Letters, 391: 144-148.
- Harman G.E., Herrera-Estrella A.H., Horwitz B.A., Lorito M. (2012) Special Issue: Trichoderma-from Basic Biology to Biotechnology. Microbiology, 158: 1-2.
- Hölker U., Dohse J., Höfer M. (2002) Extracellular laccases in ascomycetes Trichoderma atroviride and Trichoderma harzianum. Folia Microbiologica, 47: 423-427.
- Kahraman S.S., Gurdal I.H. (2002) Effect of synthetic and natural culture media on laccase production by white rot fungi, Bioresource Technology, 82: 215-217.
- Kunamneni A., Plou F.J., Ballesteros A., Alcalde M. (2008) Laccases and their applications: A Patent Review, Recent Patent on Biotechnology, 2: 10-24.
- Pazarlıoğlu N.K., Sarişik M., Telefoncu A. (2005) Laccase:Production by Trametes versicolor and Application to Denim Washing. Process Biochemistry, 40: 167316
- Rigo M., Alegre R.M., Bezerra J.R.M.V., Coelho N., Bastos R.G. (2010) Catechol biodegredation kinetics using Candida parapsilosis. Brazillian Archive Biology and Technology ,53: 481-486.
- Rodriguez C.S., Herrara F.L.T. (2006) Industrial and biotechological applications of laccase. Biotechnology Advances, 24: 5005
- Thurston C.F. (1994) The structure and function of fungal laccases. Microbiology, 140: 19Velazquez-Cedeno M.A., Farnet A.M., Ferre E
- &Savoie J.M. (2004) Variations of lignocellulosicactivities in dual cultures of pleurotus ostreatus and Trichoderma longibrachiatum on unsterilized wheat straw. Mycologia, 96: 712-719.
Details
| Primary Language | English |
|---|---|
| Journal Section | Research Articles |
| Authors | |
| Publication Date | May 12, 2014 |
| Submission Date | May 12, 2014 |
| Published in Issue | Year 2013 Volume: 72 Issue: 2 |
