Received: 18-08-2023
Accepted: 26-12-2023
DOI:
Views
Downloads
How to Cite:
Study on Identification and Culture Conditionfor Biosynthesis of Laccase by Trametes polyzona TĐ16
,
Tran Thi Huong
1
,
Nguyen Van Hieu
1
,
Dang Thi Nhung
1
,
Phan Thi Hong Thao
1
Keywords
Trametes polyzona, cultivation condition, identification, ITS-rDNA, laccase
Abstract
White-rot fungi are capble of degrading wood lignin by extracellular lignin modifying enzyme system, in which laccase plays an important role in ligninolysis and is widely used in some industries. This study was carried out with the objective of identifying the white rot fungus TD16 and selected suitable conditions for the biosynthesis of laccase to apply in the biopulping. The strain TD16 was studied for biological characteristics and sequence of the ITS - rDNA gene analyzed. The fruiting bodies have a scalloped shape and the edges are smooth. The upper surface of fruiting bodies is dark brown with concentric circular veins. The hymenium layer is white-brown and rough. On MEA medium, the colonies of TD16 fungal strain are fluffy, snow white, and evenly circular. The strain TD16 has a relatively fast growth rate and can produce extracellular enzymes. The strain TD16 was identified as Trametes polyzonaand named as Trametes polyzonaTD16. The optimal culture conditions for enhanced laccase biosynthesis were investigated. Trametes polyzonaTĐ16 showed the highest laccase activity of upto 8.135 U/ml on MT2 medium containing 0.0625mM CuSO4after 7 days of fermentation at 37ºC and pH of 5.0.
References
Almeida A.C.S., Araujo L.C., Costa A.M., Abreu C.A.M., Lima M.A.G.A. & Pahla M.L.A.P.F.P. (2005). Sucrose Hydrolysis Catalyzed by Auto-immobilized Invertase into Intact Cells of Cladosporium cladosporioides. Electronic Journal of Biotechnology. 8(1): 54-62.
Bardi A., Ciummei Y., Spennati F., Moga I.C., Di Gregorio S., Petroni G., Munz G. (2022). Comparing carriers as a support media of white-rot fungi in natural tannins removal. Environmental Advances. 9: 100311.
Brazkova M., Mercati A., Hristova I., Lante A. & Krastanov A. (2016). Isolation, Purification and Characterization of Laccase from the White-rot Fungus Trametes versicolor. Scientific works of university of food technologies. 63(1): 155-162.
Cardullo N., Muccilli V. & Tringali C. (2022). Laccase-mediated synthesis of bioactive natural products and their analogues, RSC Chemical Biology.3: 614-647.
Cavallazzi J.R.P., Kasuya C.M. & Soares M.A. (2005). Screening of inducers for laccase production by Lentinula edodes in liquid medium. Brazilian Journal of Microbiology.36(4): 383–387.
Chawachart N., Khanongnuch C., Watanabe T. & Lumyong S. (2003). Rice bran as an efficient substrate for laccase production from thermotolerant basidiomycete Coriolus versicolorstrain RC3, Fungal Diversity. pp. 23-32.
Chen Z., Oh W.D. & Yap P.S. (2022).Recent advances in the utilization of immobilized laccase for the degradation of phenolic compounds in aqueous solutions: A review. Chemosphere. 307(3): 135824.
Cupul W.C., Abarca G.H., Carrera D.M. & Vázquez R.R. (2014). Enhancement of ligninolytic enzyme activities in a Trametes maxima–Paecilomyces carneusco-culture: Key factors revealed after screening using a Plackett–Burman experimental design. Electronic Journal Biotechnology. (17): 114-121.
DhakarK. & Pandey A. (2013). Laccase Production from a Temperature and pH Tolerant Fungal Strain of Trametes hirsuta(MTCC 11397). Enzyme Research.9p.
Dhouib A., Hamza M., Zouari H., Mechichi T., H’midi R., Labat M., Martínez M.J. & Sayadi S. (2005). Autochthonous fungal strains with high ligninolytic activities from Tunisian biotopes. African Journal of Biotechnology. 4(5): 431-436.
Dong C.D., Tiwari A., Anisha G.S., Chen C.W., Singh A., Haldar D., Patel A.K. & Singhania R.R. (2023). Laccase: A potential biocatalyst for pollutant degradation, Environmental Pollution. 319.
Du W., Sun C. & Yu J. (2012). Effect of synergistic inducement on the production of laccase by a novel Shiraia bambusicola strain GZ11K2. Applied Biochemistry and Biotechnology. 168(8): 2376-2386.
Egorov N.X. (1976). Thực tập vi sinh vật học(Nguyễn Lân Dũng dịch). Nhà xuất bản Khoa học và Kỹ thuật, Hà Nội.
Gardes M. &Bruns T.D. (1993). ITS primers with enhanced specificity for basidiomycetes -application to the identification of mycorrhizae and rusts. Molecular Ecology.(2):113-118.
Hood I.A. (2006). The mycology of the Basidiomycetes. Proceedings of a workshop held in Yogyakarta, Indonesia, Canberra, ACIAR Proceedings. (124): 34-45.
Jebapriya G.R. & Gnanadoss J.J. (2014). Screening and molecular characterization of white rot fungi capable of laccase production and dye decolourization. International Journal of Life Science & Pharma research. 4(2): 12-20.
Justo A. & Hibbett D.S. (2011). Phylogenetic classification of Trametes (Basidiomycota, Polyporales) based on a five-marker dataset. Taxon. 60(6): 1567-1583.
Kenkebashvili N., Elisashvili V. & Wasser S.P. (2012). Effect of Carbon, Nitrogen Sources, and Copper Concentration on the Ligninolytic Enzyme Production by Coriolopsis gallica. Journal of Waste Conversion, Bioproducts and Biotechnology.1(2): 22-27.
Kirk PM., Cannon PF., Minter DW. & Stalpers JA. (2008). Dictionary of the Fungi (10th ed.). Wallingford, UK: CAB International. p. 695.
Naz S., Gupta S. & Chatterjee T. (2022). A Review: Optimization of Fungal LaccaseProduction and their Potential Application in Effluents Treatment. Journal of Scientific Research. 66(1): 86-102.
Palvannan T. & Sathishkumar P. (2010). Production of laccase from Pleurotus floridaNCIM 1243 using Plackett-Burman design and response surface methodology. Journal of Basic Microbiology. 50(4): 325-335.
Patel H. &Gupte A., (2016). Optimization of different culture conditions for enhanced laccase production and its purification from Tricholoma giganteumAGHP. Bioresources and Bioprocessing. 3: 11.
Ryvarden L. (1991). Genera of polypores: Nomenclature and taxonomy. Synopsis Fungorum 5. Oslo: Fungiflora.
Sambrook J. &Russell D.W.(2001).Molecular cloning. A laboratory manual, 3rd ed. Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Sayyed R.Z., Bhamare H.M., Marraiki, N., Elgorban A.M. Syed, A. Ali, H. & Enshasy E. (2020). Tree bark scrape fungus: A potential source of laccase for application in bioremediation of non-textile dyes, PLOS ONE. 15(6): 1-17.
Schwantes H.O. & Salttler P.W. (1971). Methoden zur messung der Wachstumsgeschwindigkeit von Pilzmycelien. Oberhess Naturwiss Zeitschr. 38: 5-18.
Shraddha S., Shekher R., Sehgal S., Kamthania M.& Kumar A.(2011). Laccase: Microbial Sources, Production, Purification, and Potential Biotechnological Applications. Enzyme Research. p. 217861.
Snajdr J. & Baldrian P. (2007). Temperature affects the production, activity, and stability of ligninolytic enzymes in Pleurotus ostreatusand Trametes versicolor. Folia Microbiologica (Praha). 52(5): 498-502.
Soden D.M. & Dobson A.D.W. (2001). Differential regulation of laccase gene expression in Pleurotus sajor-caju. Microbiology.147(7): 1755-1763.
Strong P.J. (2011). Improved Laccase Production by Trametes pubescensMB89 in Distillery Wastewaters. Enzyme Research. 2011: 1-8.
Trịnh Tam Kiệt (2011). Nấm lớn ở Việt Nam(Tập 1 (tái bản lần thứ 2)). Nhà xuất bản. Khoa học Tự nhiên và Công nghệ.
Upadhyay P., Shrivastava R. & Agrawal P.K. (2016) Bioprospecting and biotechnological applications of fungal laccase. 3 Biotech. 6: 15.
Viswanath B., Rajesh A., Janardhan, Kumar A.P. & Narasimha G. (2014). Fungal Laccases and Their Applications in Bioremediation, Enzyme Research. 21p.
Wakil S.M., Adebayo-Tayo B.C., Odeniyi O.A., Salawu. K, Eyiolawi S. & Onilude A.A. (2017). Production, Characterization, and Purification of Laccase by Yeasts Isolated from Ligninolytic Soil. Journal of Pure and Applied Microbiology. 11(2): 847-869.
Yan J., Chen Y., Niu J., Chen D., Chagan I. (2015). Laccase produced by a thermotolerant strain of Trametes trogiiLK13, Brazilian Journal of Microbiology. 46(1): 59-65.
Yang J., Li W., Bun N.T., Deng X., Lin J. & Ye X. (2017) Review: Laccases: Production, Expression Regulation, and Applications in Pharmaceutical Biodegradation, Frontiers in Microbiology. 8(832): 1-24.