Hidrolisis Media Sisa Budidaya Jamur Kuping Menggunakan Tiga Jenis Enzim Selulase

https://doi.org/10.22146/jik.24900

Denny Irawati(1*)

(1) Departemen Teknologi Hasil Hutan, Fakultas Kehutanan, Universitas Gadjah Mada, Jl. Agro No.1, Bulaksumur, Sleman 55281
(*) Corresponding Author

Abstract


Jamur kuping (Auricularia polytricha) termasuk dalam kelas Basidiomycetes yang banyak dibudidayakan di Indonesia. Setelah 6-8 bulan masa pembudidayaan media budidaya jamur kuping harus diperbaharui. Sejauh ini media sisa budidaya jamur kuping belum dimanfaatkan dengan baik, bahkan limbah tersebut hanya dibuang begitu saja sebagai limbah. Hal ini sangat berbahaya karena sisa miselia yang terdapat di dalam media sisa dapat mendegradasi lebih lanjut media dan mengakibatkan pencemaran lingkungan yaitu terlepasnya gas metana ke udara. Oleh karena itu pemanfaatan sisa media budidaya kuping perlu dilakukan antara lain untuk memproduksi gula pereduksi dengan menggunakan berbagai jenis enzim selulase. Penelitian ini menggunakan media sisa budidaya jamur kuping yang berasal dari 3 jenis kayu, yaitu sengon (Falcataria moluccana), jati (Tectona grandis), dan meranti (Shorea sp.), yang dihidrolisis menggunakan 3 jenis enzim selulase yaitu Driselase, Cellulase “Onozuka” R-10, dan Meicelase. Setelah hidrolisis, kemudian diukur laju hidrolisisnya dan dianalisis kadar gula pereduksinya. Rancangan yang digunakan adalah rancangan acak lengkap dengan aras 3 x 3 serta ulangan sebanyak 3 untuk setiap perlakuan. Hasil penelitian menunjukkan bahwa media sisa budidaya jamur kuping memiliki potensi sebagai bahan baku gula pereduksi yang selanjutnya dapat difermentasi menjadi bio-etanol atau bahan kimia lainnya. Laju hidrolisis berkisar antara 1,43-21,29%, dengan kombinasi tertinggi yaitu media sisa budidaya yang terbuat dari serbuk kayu meranti dengan menggunakan enzim Meicelase. Kadar dan rendemen gula pereduksi tertinggi juga dihasilkan dari kombinasi perlakuan yang sama, yaitu berturut-turut sebesar 127,7 mg/g dan 12,8% dengan kisaran hasil antara 56,01-127,7 mg/g atau rendemen 5,6-12,8%.


The Hydrolysis of Ear-Mushroom Cultivation Media Residue by Using Three Kinds of Cellulase Enzymes

Abstract

Ear mushrooms (Auricularia polytricha) belongs to class Basidiomycetes is widely cultivated in Indonesia. After 6-8 months of cultivation, the media should be renewed. Therefore, the rest of the media is under utilized and just thrown away as a waste. This is dangerous because the residual mycelia that contained in the rest of the media may further degrade the media. This pollutes the environmental pollution due to discharge of methane into the air. Therefore, the utilization of residual ear mushroom media needs to be processed. In fact, this residue can produce a reducing-sugar using various commercial cellulase enzymes. This study used the residual media of the cultivation of mushroom derived from three types of wood, i.e. sengon (Falcataria moluccana), teak (Tectona grandis), and meranti (Shorea sp.), and then they were hydrolyzed using three types of cellulase enzymes, i.e. Driselase, Cellulase “Onozuka” R-10, and Meicelase. The hydrolysis rate was measured and the reducing-sugar yield was analyzed. The design used was completely randomized design with 3 x 3 factors and 3 replications for each treatment. The results showed that the residue of the mushroom cultivation media has the potential of reducing sugar as a raw material which can then be fermented into bio-ethanol or other chemicals. Hydrolysis rate ranged from 1.43 to 21.29%. The highest combination of residual cultivation medium was made from meranti sawdust by using Meicelase enzyme. The highest reducing sugar content yield were also resulted from the combination of the same treatment, which amounted to 127.7 mg/g or 12.8% with output range between 56.0 and 127.7 mg/g (or yield 5.6-12.8%).


Keywords


cellulase; ear mushroom; hydrolysis; media residue; reducing sugar

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References

  1. Akamatsu Y. 1998. Reutilization of culture wastes of Pleurotus ostreatus and Pholiota nameko for cultivation of Lyophyllum decastes. Journal of Wood Science 44:417-420.
  2. Anonimus. 2016a. Driselase. http://www.biology-online. org/dictionary/Driselase. Diakses Maret 2016.
  3. Anonimus. 2016b. Cellulases. http://www.serva.de/www_root/documents/16419_26.pdf. Diakses Juni 2016.
  4. Balan V, Sousa LC, Chundawat SPS, Vismeh R, Jones AD, Dale BE. 2008. Mushroom spent straw: a potential substrate for an ethanol-based biorefinery. Journal of Industrial Microbiol and Biotechnology 35: 293-301.
  5. Hideno A, Aoyagi H, Isobe S, Tanaka H. 2007. Utilization of spent sawdust matrix after cultivation of Grifola frondosa as substrate for ethanol production by simultaneous saccharification and fermentation. Food Science and Technology Research 13: 111-117.
  6. Hiyama R, Gisusi S, Harada A. 2011. Evaluation of waste mushroom medium from cultivation of shiitake mushroom (Lentinula edodes) as feedstock of enzymic saccharification. Journal of Wood Science 57:429-435.
  7. Gomez KA, Gomez AA. 1995. Prosedur statistik untuk penelitian pertanian. Sjamsuddin E, Baharsjah JS, penerjemah. UI Press. Jakarta.
  8. Irawati D, Azwar NR, Syafi’i W, Artika IM. 2009. Pemanfaatan serbuk kayu untuk produksi etanol dengan perlakuan pendahuluan delignifikasi menggunakan jamur Phanerochaete Chrysosporium. Jurnal Ilmu Kehutanan 3:13-22.
  9. Irawati D, Hayashi C, Takashima Y, Wedatama S, Ishiguri F, Iizuka K, Yoshizawa N, Yokota S. 2012a. Cultivation of the edible mushroom Auricularia polytricha using sawdust based substrate made of three Indonesian commercial plantation species, Falcataria moluccana, Shorea sp., and Tectona grandis. Micologia Aplicada International 24 :33-41.
  10. Irawati D, Yokota S, Niwa T, Takashima Y, Ueda C, Ishiguri F, Iizuka K, Yoshizawa N. 2012b. Enzymatic saccharification of spent wood-meal media made of 5 different tree species after cultivation of edible mushroom Auricularia polytricha. Journal of Wood Science 58:180-183.
  11. Kementerian Pertanian. 2012. Laporan Akuntabilitas Kinerja Instansi Pemerintah Direktorat Jenderal Hortikultura TA 2012. Kementerian Pertanian Direktorat Jenderal Hortikultura. Jakarta.
  12. Kurniati N. 2013. Teknik dan cara budidaya jamur kuping. http://www.tanijogonegoro.com/2013/07/budidaya-jamur.html. Diakses Maret 2016.
  13. Kuo CH, Lee CK. 2009. Enhancement of enzymatic saccharification of cellulose by cellulose dissolution pre-treatments. Carbohydrate Polymers 77:41–46.
  14. Leatham GF, Himmel ME. 1991. Enzymes in biomass conversion. American Chemical Society. Washington.
  15. Lee JW, Koo BW, Choi JW, Choi DH, Choi IG. 2008. Evaluation of waste mushroom logs as a potential biomass resource for the production of bioethanol. Bioresource Technology 99:2736-2741.
  16. Li Y, Sun Z, Ge X, Zhang J. 2016. Effects of lignin and surfactant on adsorption and hydrolysis of cellulases on cellulose. Biotechnology for Biofuels 9:20. DOI 10.1186/s13068-016-0434-0.
  17. López-Castro RI, Delmastro S, Curvetto NR. 2008. Spent oyster mushroom substrate in a mix with organic soil for plant pot cultivation. Micologia Aplicada International 20: 17-26.
  18. Medina E, Paredes C, Pérez-Murcia MD, Bustamante MA, Moral R. 2009. Spent mushroom substrates as component of growing media for germination and growth of horticultural plants. Bioresource Technology 100: 4227-4232.
  19. Miller GL. 1959. Use of dinitrosalicylic acid reagent for determination of reducing sugar. Analytical Chemitry 31: 426–428.
  20. Okada G. 1976. Enzymatic studies on a cellulase system of Trichoderma viride - Purification and properties of a less-random type cellulase. Journal Biochemistry 80:913-922.
  21. Parjimo H, Andoko A. 2008. Budidaya jamur : Jamur kuping, jamur tiram dan jamur merang. Agromedia Pustaka. Jakarta.
  22. Shawky BT, Mahmoud MG, Ghazy EA, Asker MMS, Ibrahim GS. 2011. Enzymatic hydrolysis of rice straw and corn stalks for monosugars production. Journal of Genetic Engineering and Biotechnology 9: 59–63.
  23. Sun Y, Cheng J. 2002. Hydrolysis of lignocellulosic materials for ethanol production: a review. Bioresource Technology 83: 1-11.
  24. Ueda C, Takashima Y, Ishiguri F, Iizuka K, Yoshizawa N, Yokota S. 2015. Ozone oxidation pretreatment for enzymatic saccharification of spent culture media after Lentinula edodes cultivation. Journal of Wood Science 61:65-69.
  25. Wilbraham AC, Matta MS. 1992. Pengantar kimia organik dan hayati. Achmadi S, penerjemah. Penerbit ITB, Bandung.
  26. Wood IP, Elliston A, Ryden P, Bancroft I, Roberts IN, Waldron KW. 2012. Rapid quantification of reducing sugars in biomass hydrolysates: Improving the speed and precision of the dinitrosalicylic acid assay. Biomass and Bioenergy 44:117-121.
  27. Yokota S, Nakajima R, Suzuki D, Ishiguri F, Iizuka K, Yoshizawa N. 2007. Enzymatic saccharification and ethanol fermentation with the cultural waste from edible mushroom cultivation using wood meals of unused tree species, Alnus japonica and Zelkova serrata. Cellulose Chemistry and Technology 41:575-582.



DOI: https://doi.org/10.22146/jik.24900

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