Determination of Optimal Fermentation Condition for N-acetylglucosamine Production Using Mucor circinelloides Extracellular Chitinase

https://doi.org/10.22146/jfs.45859

Yuniwaty Halim(1*), Hardoko Hardoko(2), Reinald Febryanto Pengalila(3)

(1) Jurusan Teknologi Pangan, Universitas Pelita Harapan, Banten
(2) Jurusan Teknologi Pangan, Universitas Pelita Harapan, Banten - Jurusan Teknologi Hasil Perikanan, Fakultas Perikanan dan Ilmu Kelautan, Universitas Brawijaya, Malang
(3) Jurusan Teknologi Pangan, Universitas Pelita Harapan, Banten
(*) Corresponding Author

Abstract


This research aimed to determine the best fermentation condition, consists of pH, temperature, fermentation time and substrate concentration, in N-acetylglucosamine production from shrimp shells using crude extracellular chitinase obtained from Mucor circinelloides mould. The method used was experimental method with fermentation treatment of different pH (5, 6, 7, 8 and 9) and temperature (30, 40, 50, 60, 70 and 80°C). The optimal pH and temperature of fermentation obtained was used to determine the maximum substrate concentration (0.5, 1, 1.5 and 2%) and fermentation time (2, 4, 6 and 24 hours) to produce the highest concentration of N-acetylglucosamine. The optimal pH for fermentation was 8, with chitinase activity of 4.38±0.06 U/ml, while the optimal temperature was 50°C with enzyme activity of 5.42±0.06 U/ml. Substrate concentration and fermentation time affected the N-acetylglucosamine production. The optimal fermentation condition was obtained with substrate concentration of 1.5% and fermentation time of 2 hours resulted to N-acetyl Glucosamine concentration of 2195.83±15.14 ppm.


Keywords


Shrimp shells; chitinase; chitin; Mucor circinelloides; N-acetylglucosamine

Full Text:

PDF


References

Al-Hassan, A.A. 2016. Utilization of waste: extraction and characterization of chitosan. Civil and Environmental Research. 8 (3): 117-123

Annamalai, N., V.R. Mayavan, V. Shanmugam & B. Thangavel. 2011. Purification and characterization of chitinase from Alcaligenes faecalis AUO2 by utilizing marine waste and its antioxidant activity. Annals of Microbiology. 61: 801-807

AOAC. 2005. Determination of Moisture, Ash, Protein and Fat. Official Method of Analysis of the Association of Analytical Chemists. 18th Edition, AOAC, Washington DC

Arif, A.R., H.N. Ischaida & S. Dali. 2013. Isolasi kitin dari limbah udang putih (Penaeus merguiensis) secara enzimatis. Prosiding Seminar Nasional Kimia “Peran Sains dan Teknologi dalam Mendukung Ketahanan Pangan dan Energi Nasional”. Universitas Hasanuddin, Makassar, Indonesia. 10-16

Brzezinska, M.S., U. Jankiewicz & K. Lisiecki. 2013. Optimization of cultural conditions for the production of antifungal chitinase by Streptomyces sprovirgulis. Applied Biochemistry and Microbiology. 49 (2): 154-159

Cahyani, L. 2013. Pemanfaatan Tepung Cangkang Udang sebagai Media Produksi Kitinase oleh Bakteri Kitinolitik Isolat 26. Skripsi, Universitas Jember, Jember

Cahyono, E., S. Pipih & W. Ietje. 2014 Development of a pressurized hydrolysis method for producing glucosamine. Asian Journal of Agriculture and Food Sciences. 2 (5): 390-396

Chen, J., C. Shen & C. Lui. 2010. N-acetylglucosamine: production and applications. Marine Drugs. 8 (9): 2493-2516

Czechowska-Biskup, R., J. Diana, R. Bozena, U. Piotr & M.R. Janusz. 2012. Determination of degree of deacetylation of chitosan-comparison methods. Progress on Chemistry and Application of Chitin and Its Derivative. 17: 5-20

Ghanem, K. M, S.M. Al-Garni & N.H. Al-Makishah. 2010. Statistical optimization of cultural conditions for chitinase production from fish scales waste by Aspergillus terreus. African Journal of Biotechnology. 9 (32): 5135-5146

Herdyastuti, N & S. E. Cahyaningrum. 2017. Analysis of N-acetyl-glucosamine from enzymatic degradation of amorphous chitin. Rasayan Journal of Chemistry. 10 (1): 226-233

Hossain, M.S & A. Iqbal. 2014. Production and characterization of chitosan from shrimp waste. Journal of the Bangladesh Agricultural University. 12 (1): 153-160

Islam, S. Z., M. Khan & A. Alam. Production of chitin and chitosan from shrimp shell wastes Journal of the Bangladesh Agricultural University. 14 (2): 253-259

Jamialahmadi, K., J. Behravan, M.F. Najafi, M.T. Yazdi, A.R. Shahverdi & M.A. Faramarzi. 2011. Enzymatic production of N-acetyl-D-glucosamine from chitin using crude enzyme preparation of Aeromonas sp. PTCC1691. Biotechnology. 10 (3): 292-297

Jenifer, S., J. Jeyasree, D.L. Kezia & K. Manikandan. 2014. Purification and characterization of chitinase from Trichoderma viride N9 and its antifungal activity against phytopathogenic fungi. World Journal of Pharmacy and Pharmaceutical Sciences. 3 (2): 1604-1611

Junianto, B.W & S. Siswa. 2013. Selection of methods for microbiological extraction of chitin from shrimp shells. Microbiology Indonesia. 7 (2): 75-83

McNeil, B., A. David, G. Ioannis & H. Linda. 2013. Microbial Production of Food Ingredients, Enzyme and Nutraceuticals. Woodhead Publishing. Cambridge. 494-530

Mishra, P., P. Kshirsagar, S.S. Nilegaonkar & S.K. Singh. 2012. Statistical optimization of medium components for production of extracellular chitinase by Basidiobolus ranarum: a novel biocontrol agent against plant pathogenic fungi. Journal of Basic Microbiology. 52 (5): 539-548

Nielsen, S. S. 2010. Food Analysis 4th ed. Springer Science+Business Media. New York. 578-582

Percot, A., V. Christope & D. Alain. 2003. Optimization of chitin extraction from shrimp shells. Biomacromolecules. 4 (1): 12-18

Puspawati, N.M & I.N. Simpen, 2010. Optimasi deasetilasi khitin dari kulit udang dan cangkang kepiting limbah restoran seafood menjadi khitosan melalui variasi konsentrasi NaOH. Jurnal Kimia. 4 (1): 79-90

Rahmansyah, M & I.M. Sudiana. 2003. Optimasi analisis amilase dan glukanase yang diekstrak dari miselium Pleurotus ostreatus dengan asam 3,5 dinitrosalisilat. Berkala Penelitian Hayati. 9: 7-12

Ramadhan, L.O.A.N., C.L. Radiman, D. Wahyuningrum, V. Suendo, L. O. Ahmad & S. Valiyaveetiil. 2010. Deasetilasi kitin secara bertahap dan pengaruhnya terhadap derajat deasetilasi serta massa molekul kitosan. Jurnal Kimia Indonesia 5 (1): 17-21

Salazar, J., L. Bello, M. Chávez, R. Añez, J. Rojas & V. Bermúd. 2014. Glucosamine for osteoarthritis: biological effects, clinical efficacy, and safety on glucose metabolism. Arthritis: 1-13

Sanusi, M. 2004. Transformasi kitin dari hasil isolasi limbah industri udang beku menjadi kitosan. Marina Chimca Acta. 5 (2): 28-32

Scanlon, M.G., A.W. Henrich & J.R. Whitaker. 2018. Factors Affecting Enzyme Activity in Food Processing. Proteins in Food Processing. Elsevier BV. Amsterdam. 337-365

Setia, I.N. 2015. Chinolytic assay and identification of bacteria isolated from shrimp waste based on 16S rDNA sequences. Advances in Microbiology. 5 (7): 541-548

Suryadi, Y., T.P. Priyatno, I.M. Samudera, D.N. Susilowati, N. Lawati & E. Kustaman. 2013. Pemurnian parsial dan karakterisasi kitinase asal jamur entomopatogen Beauveria bassiana Isolat BB200109. Jurnal AgroBiogen. 9 (2):77-84

Suzuki, S., E. Nakanishi., T. Ohira, R. Kawachi, H. Nagasawa & S.Sakuda. 2006. Chitinase inhibitor allosamidin is a signal molecule for chitinase production in its producing Streptomyces. The Journal of Antibiotics. 59 (7): 402-409

Traving S.J., U.H. Thygesen, L. Riemann, C.A. Stedmon. 2015. A model of extracellular enzymes in free-living microbes: which strategy pays off?. Applied and Environmental Microbiology. 81: 7385-7393

Umemoto, N., K. Yuka, O. Takayuki, O. Takuo, N. Tomoyuki, S. Sakuda, T. Taira & T. Fukamizo.2015.Crystal structures and inhibitor binding properties of plantclass V chitinases: the cycad enzyme exhibits uniquestructural and functional features. The Plant Journal. 82: 54-66

Veronica. 2017. Uji Aktivitas Kitinolitik Kapang yang Diisolasi dari Kulit Udang Windu (Penaues monodon). Skripsi, Universitas Pelita Harapan, TangerangYounes, I & M. Rinaudo. 2015. Chitin and chitosan preparation from marine sources. structure, properties and applications. Marine Drugs. 13 (3): 1133-1174

Zhang, L.Y., X.Y. Zhang, W. Zhang, C. Lin & Y.G. Zhang. 2017. Screening and identification of chitinase producing strain and its inhibition action to dominant moulds in corn stalk. Chinese Journal of Animal Nutrition. 3: 1-8



DOI: https://doi.org/10.22146/jfs.45859

Article Metrics

Abstract views : 2118 | views : 3169

Refbacks

  • There are currently no refbacks.




Copyright (c) 2019 Jurnal Perikanan Universitas Gadjah Mada

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Jurnal Perikanan Universitas Gadjah Mada (print ISSN 0853-6384; online ISSN 2502-5066) is published by Department of Fisheries, Universitas Gadjah Mada in collaboration with Semnaskan UGM (Seminar Nasional Tahunan Hasil Perikanan dan Kelautan) and ISMFR (International Symposium on Marine and Fisheries Research).

 

View My Stats