Production of Amylase Enzyme by Aspergillus and Fusarium Species using Sugar Cane Bagasse

Authors

  • Ahmad Abubakar Department of Microbiology, Umaru Musa Yar’adua University, Katsina, Nigeria https://orcid.org/0000-0003-2546-5253
  • Bilkisu, A. Department of Microbiology, Umaru Musa Yar’adua University, Katsina, Nigeria
  • Shamsuddeen, U. Department of Microbiology, Bayero University, kano, Nigeria

DOI:

https://doi.org/10.47430/ujmr.2491.022

Keywords:

Amylase, optimization, Synthetic starch, sugar cane bagasse, Parameters

Abstract

Study’s Novelty/Excerpt

  • This study presents insights into the cost-effective production of amylase enzymes using sugar cane bagasse as a substrate, showcasing a significant advancement over traditional synthetic starch substrates.
  • By optimizing production parameters such as incubation time, substrate and inoculum concentrations, pH, and temperature, the research demonstrates the superior amylase yield of Aspergillus niger, Aspergillus flavus, and Fusarium spp. under specific conditions.
  • This work not only highlights the potential of using waste materials for industrial enzyme production but also emphasizes the need for further exploration of the isolates' identities and the industrial applications of the extracted enzymes.

Full Abstract

Amylases are hydrolytic enzymes produced by some microorganisms and utilized in the hydrolysis of starch.  This study aimed to determine the ability of certain fungal isolates isolated from wastes to synthesize the amylase enzyme utilizing synthetic soluble starch and sugar cane bagasse as substrates.  Aspergillus niger, Aspergillus flavus, and Fusarium spp., previously identified to have amylolytic activity, were used for the research.  The submerged fermentation process was used to produce amylase, with basal medium and sugar cane bagasse as substrates.  The incubation time, substrate and inoculum concentrations, pH, and temperature were all optimized.  The dinitrosalicylic acid reagent (DNS) technique was used to determine the activity of the amylase generated.  Initial production of amylase using soluble starch (20 g (w/v)) as substrate at room temperature and pH 7.0 shows that all the isolates produce amylase better when their concentration (3%) is high but have different incubation periods of 96 hr for Aspergillus niger (8.65±0.21 U/mL/minutes) and Fusarium spp (7.15±0.07 U/mL/minutes), while Aspergillus flavus (7.30±0.14 U/mL/minutes) requires an extended incubation period of 144 hr to produce the product.  Further production using sugar cane bagasse and optimization of production parameters of the isolates reveals that Aspergillus niger (4.35±0.07 U/mL/minutes) has an optimum incubation period of 120 hours, an inoculum concentration and substrate concentration of 2% each, and a pH of 6, Aspergillus flavus (6.40±0.28 U/mL/minutes) has an optimum incubation period of 144 hours, with inoculum and substrate concentration of 3% each at neutral pH, Fusarium spp (6.80±0.28 U/mL/minutes) has an optimum incubation period of 168hr., inoculum concentration of 3%, substrate concentration of 2% and a neutral pH-7 and all the isolates have their best yield at temperature of 30oC.  In conclusion, using cheap and readily available sugar cane bagasse can be a more cost-effective option for expensive synthetic starch substrates used in amylase synthesis.  The study suggests further investigation into the isolates' identities and the extracted enzyme's industrial application.

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References

Abouamama.S., Anis.B., Abir.S., Maroua.H and, Sirine. B. (2023). Amylolytic and antibacterial activity of filamentous fungi isolated from the rhizosphere of different plants grown in the Tamanghasset region. Heliyon 9, https://doi.org/10.1016/j.heliyon.2023.e14350

Adnan, W.D., Hassan, S.A and Yusra, M.B.M. (2019). Production of Amylase Enzyme by local isolation of Aspergillus production of amylase enzyme by local isolation of Aspergillus niger. Biochem. Cell. Arch. 19 (2):3301-3305. https://doi.org/10.35124/bca.2019.19.2.3301

Ahmad M, A and Shamsuddeen, U and Yahaya, S.(2022). Production of amylase enzyme by Aspergillus niger and Fusarium spp using wheat bran and groundnut shell as substrate. Book Of Proceedings, International Ankara Multidisciplinary Studies Congress: 29-31 July 2022: 1203-1214. www.izdas.org

Aisien, E. T. and Igbinosa, I. H.(2019). Production, purification, and characterization of alpha-amylase from Aspergillus niger, Aspergillus flavus and Penicillium expansum using cassava peels as substrate. Nigerian Journal of Biotechnology, 36 (2): 114–126. https://dx.doi.org/10.4314/njb.v36i2.12.

Aiyer P.V.(2005). Amylases and their applications. African Journal of Biotechnology. 2005; 4(13): 1525-1529. https://www.ajol.info/index.php/ajb/article/view/71631

Ali, E. H., El-nagdy, M. A., Al-Garni, S. M., Ahmed, M. S., and Rawaa, A. M. (2017). Enhancement of alpha-amylase production by Aspergillus flavus AUMC 11685 on mandarin (Citrus reticulata ) peel using submerged fermentation. European Journal of Biological Study,7 (3), 154–164. http://dx.doi.org/10.5281/zenodo.818271

Amorim, I.C.S., Marinho, G.O., de Oliveira, T.M.F.S., Roa, J.P.B., dos Reis, A.B., Nelson, D.L., Pasin, T.M. and Benassi, V.M. (2020) Isolation of Filamentous Fungi from the Caatinga Region and Production of Amylolytic Enzymes of Great Industrial Interest. Journal of Biosciences and Medicines, 8, 152-164. https://doi.org/10.4236/jbm.2020.811014

Arekemase M.O., Alfa O.P., Agbabiaka T.O., Ajide-Bamigboye N.T., Aderoboye O.Y., Orogu J.O. and Ahmed T. (2020). Optimization of amylase produced from bacteria isolated from cassava peel dumpsite using submerged fermentation. Science World Journal Vol. 15(No 1). www.scienceworldjournal.org

Arunsasi., ManthiriKani. S, Jegadeesh. G. and Ravikumar, M. (2010). Submerged Fermentation of Amylase Enzyme by Aspergillus flavus using Cocos Nucifera Meal. Kathmandu University Journal of Science, Engineering and Technology, 6 (2), 75–87. https://doi.org/10.3126/kuset.v6i2.4015

Asrat, B., and Girma, A. (2018). Isolation, production and characterization of amylase enzyme using the isolate Aspergillus niger FAB-211. International Journal of Biotechnology and Molecular Biology Study, 9 (2), 7–14. https://doi.org/10.5897/IJBMBR2018.0289

Balkan, B and Ertan, F. (2010). The production of a new fungal alpha-amylase degraded the raw starch by means of solid-state fermentation. Prep Biochem Biotechnology. 40 (3): 213-228. https://doi.org/10.1080/10826068.2010.488549

Benabda, O., Sana, M., Kasmi, M., Mnif, W., & Hamdi, M. (2019). Optimization of Protease and Amylase Production by Rhizopus oryzae Cultivated on Bread Waste Using Solid-State Fermentation. Journal of Chemistry.1-9. https://doi.org/10.1155/2019/3738181

Benassi, V.M., Lucas, R.C., Michelin, M., Jorge, J.A., Terenzi, H.F. and Polizeli, M.L.T.M. (2012) Production and Action of an Aspergillus phoenicis Enzymatic Pool Using Different Carbon Sources. Brazilian Journal of Food Technology, 15, 253-260. https://doi.org/10.1590/S1981-67232012005000019

Chimata, M. K., Sasidhar, P., & Challa, S. (2010). Production of extracellular amylase from Agricultural residues by a newly isolated Aspergillus species in solid-state fermentation. African Journal of Biotechnology, 9 (32), 5162–5169. https://www.ajol.info/index.php/ajb/article/view/92145/81585

Fadahunsi, S. and Garuba, O. E. (2012). Amylase Production by Aspergillus flavus Associated with the Biodeterioration of Starch-Based Fermented Foods. New York Science Journal, 5(1),13-18 http://www.sciencepub.net/newyork .

Haq, I., Hameed, U., Mahmood, Z. and Javed, M.M. (2012). Solid-state fermentation for the production of alpha-amylase by Paenibacillus amylolyticus. Pakistan Journal of Botany. 44: 341–346. http://www.pakbs.org/pjbot/PDFs/44(SI1)/51.pdf

Hasan, M. Md., Wal Marzan,L., Asamul Hosna., Al Hakim and Azad.A.(2017). Optimization of some fermentation conditions for the production of extracellular amylases by using Chryseobacterium and Bacillus isolates from organic kitchen wastes. Journal of Genetic Engineering and Biotechnology. 15, 59-68. https://doi.org/10.1016/j.jgeb.2017.02.009

Hormoznejad. R., Saberi.S., Moridnia. A., Azish.M and Elyasi F.B. (2022). Optimization of the Alpha-Amylase Production from Microbial Source: A Systematic Review of Experimental Studies. Trends in Medical Science; 2(2):e129317 : https://doi.org/10.5812/tms-129317

Kareem, S.O., Akpan, I and Oduntan, S.B. (2009). Cowpea waste: a novel substrate for solid-state production of amylase by Aspergillus oryzae. African Journal of Microbiology Study, 3 (12): 974-977. https://academicjournals.org/article/article1380377130_Kareem%20et%20al.pdf

Khokhar, I., Mukhtar, I and Mushtaq, S. (2011). Isolation and Screening of Amylolytic Filamentous Fungi. Journal of Applied Science and Environmental Management. 15 (1), 203–206. https://doi.org/10.4314/jasem.v15i1.68442

Kwatia. S., Dzogbefia.V.P., and Isaac William Ofosu.I.W.(2017). Optimization of amylase production by Aspergillus niger cultivated on yam peels in solid-state fermentation using response surface methodology. African Journal of Biochemistry Research. Vol. 11(7), pp. 34-42. https://doi.org/10.5897/AJBR2017.0941 .

Makut, M.D., Alfa,F.U , Ekeleme, I.K., Owuna, J.E and Emelogu, N.J. (2021). Production of amylases by some aspergillus and fusarium species isolated from waste corncobs in Keffi, Nigeria. GSC Biological and Pharmaceutical Sciences, 16(02), 122–129. DOI: https://doi.org/10.30574/gscbps.2021.16.2.

Malik, K., Mehta, S. and Sihag, K. (2017). Isolation and Screening of Amylase Producing Fungi. International Journal of Current Microbiology and Applied Sciences. 6 (4), 783–788. https://doi.org/10.20546/ijcmas.2017.604.098

Ominyi, M.C.(2013). Optimization of α-amylase and glucoamylase production from three fungal strains isolated from Abakaliki, Ebonyi State. European Journal of Experimental Biology, 3(4):26-34. www.pelagiaresearchlibrary.com

Onoter, SB, Steilmann, P., Beroilni, J, Rotta, D, Ffrencini, AS, Kagimura, Y, Groff, SA, Mazzali, L.(2011). Amylolytic enzymes produced by the fungus Colletotrichum gloesporioides in rice semi-solid fermentation. Journal of Yeast fungi Research. 2(3): 28-32. https://doi.org/10.5897/JYFR.9000003

Orlandelli, R.C., Specian, V., Felber, A.C. and Pamphile, J.A. (2012) Enzimas de Interesse Industrial: Produção por fungos e aplicações. SaBios-Revista de Saúde e Biologia, 7, 97-109. https://revista2.grupointegrado.br/revista/index.php/sabios/article/view/1346

Oyewale, M.O. (2013). Optimization of growth and amylase production by Aspergillus flavus grown on some Agricultural raw materials in Nigeria. Pakistan journal of microbiology. 12 (5):427-432. https://doi.org/10.3923/pjn.2013.427.432

Pasin, T.M., Moreira, E.A., Lucas, R.C., Benassi, V.M., Ziotti, L.S., Cereia, M. and Polizeli, M.L.T.M. (2020) Novel Amylase-Producing Fungus Hydrolyzing Wheat and Brewing Residues, Aspergillus carbonarius, Discovered in Tropical Forest Remnant. Folia Microbiologica, 65, 173-184. https://doi.org/10.1007/s12223-019-00720-4

Pessôa, M. G., Paulino, B. N., Cezar, M., Mano, R., Neri-numa, I. A., Molina, G., & Pastore, G. M. (2017). Fusarium species — a promising toolbox for industrial biotechnology. https://doi.org/10.1007/s00253-017-8255-z

Ramachandran S, Patel AK, Nampoothiri KM, Francis F, Nagy V, Szakacs G, Pandey A. (2004). Coconut oil cake—a potential raw material for the production of alpha-amylase. Bioresources Technology, 93 (2):169–174. https://doi.org/10.1016/j.biortech.2003.10.021

Rosa, T.M.F., Marinho, B.M. and Benassi, V.M. (2017) Produção de celulases e formação de açúcares fermentescíveis pela degradação do bagaço de cana-de-açúcar. Revista Ciência & Tecnologia, 9, 38-43. https://www.scirp.org/reference/referencespapers?referenceid=2864625

Shinde, R.N., Dhangar, M.J. and Narwade, R.B. (2014). Amylase production on solid-state fermentation by wild type and mutant Bacillus licherniformis and Aspergillus niger from agro-wastes. International Journal of Pharmaceutical Science and Research, 5 (7): 2703 – 2713. http://dx.doi.org/10.13040/IJPSR.0975-8232.5(6).2703-13

Singh, P. and Kumari, P. (2016). Isolation and characterization of amylase-producing Bacillus spp. from selected soil sample. International Journal of Research in Biosciences, 5 (2): 24- 29. https://www.ijesm.co.in/uploads/23/1120_pdf.pdf

Singh, R., Kapoor, V. and Kumar. (2012). Utilization of Agro-Industrial Wastes for the Simultaneous Production of Amylase and Xylanase by Thermophilic Actinomycetes. Brazilian Journal of Microbiology,43(4), 1545-1552. https://doi.org/10.1590/S1517-838220120004000039

Varalakshmi, K. N., Kumudini, B.S. Nandini, B. N., Solomon, J., Suhas, R., Mahesh, B. and Kavitha, A. P. (2009). Production and characterization of alpha-amylase from Aspergillus niger JG1 24 Isolated in Bangalore. Polish Journal of Microbiology. 58 (1): 29-36. https://pubmed.ncbi.nlm.nih.gov/19469283/

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Published

30-06-2024

How to Cite

Abubakar, A., Bilkisu, A., & Shamsuddeen, U. (2024). Production of Amylase Enzyme by Aspergillus and Fusarium Species using Sugar Cane Bagasse. UMYU Journal of Microbiology Research (UJMR), 9(1), 202–213. https://doi.org/10.47430/ujmr.2491.022

Issue

Vol. 9 No. 1 (2024): UMYU Journal of Microbiology Research (UJMR), Volume 9, Number 1, June 2024

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Articles

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Copyright (c) 2024 Ahmad Abubakar, Bilkisu, A., Shamsuddeen, U.

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