Year 2019,
Volume: 25 Issue: 4, 459 - 466, 05.12.2019
Zehra Gulsunoglu
,
Meral Kilic-akyilmaz
,
Funda Karbancioglu-guler
,
Katleen Raes
References
- Ang S K, Shaza E M, Adibah Y, Suraini A A, Madihah M S (2013). Production of cellulases and xylanase by Aspergillus fumigatus SK1 using untreated oil palm trunk through solid state fermentation. Process Biochemistry 48(9):1293–1302
- Banerjee D, Mondal K, Pati B (2007). Tannase production by Aspergillus aculeatus DBF9 through solid state fermentation. Acta Microbiologica et Immunologica Hungarica 54(2):159–166
- Botella C, De Ory I, Webb C, Cantero D, Blandino A (2005). Hydrolytic enzyme production by Aspergillus awamori on grape pomace. Biochemical Engineering Journal 26(2):100–106
- Bradoo S, Gupta R, Saxena R K (1996). Screening of extracellular tannase-producing fungi: Development of a rapid and simple plate assay. Journal of General and Applied Microbiology 42:325–329
- Debing J, Peijun L, Stagnitti F, Xianzhe X, Ling L (2006). Pectinase production by solid fermentation from Aspergillus niger by a new prescription experiment. Ecotoxicology and Environmental Safety 64(2):244–250
- Gautam S P, Bundela P S, Pandey A K, Khan J, Awasthi M K, Sarsaiya S (2011). Optimization for the production of cellulase enzyme from municipal solid waste residue by two novel cellulolytic fungi. Biotechnology Research International, 2011:1-8
- GenBank (2016). Bethesda, M D, USA: National Center for Biotechnology Information (NCBI), US National Library of Medicine. Retrieved in June, 25, 2016 from http://www.ncbi.nlm.nih.gov/
- Jayani R S, Saxena S, Gupta R (2005). Microbial pectinolytic enzymes: A review. Process Biochemistry 40(9):2931–2944
- Kar B, Banerjee R (2000). Biosynthesis of tannin acyl hydrolase from tannin-rich forest residue under different fermentation conditions. Journal of Industrial Microbiology and Biotechnology 25(1):29–38
- Klich M A (2002). Identification of common Aspergillus species. Utrecht, The Netherlands
- Kuhad R C, Gupta R, Singh A (2011). Microbial cellulases and their industrial applications. Enzyme Research, doi:10.4061/2011/280696
- Lagemaat J V D, Pyle D L (2001). Solid-state fermentation and bioremediation: Development of a continuous process for the production of fungal tannase. Chemical Engineering Journal 84:115–123
- Ma W L, Zhao F F, Ye Q, Hu Z X, Yan D, Hou J, Yang Y (2015). Production and partial purification of tannase from Aspergillus ficuum Gim 3.6. Preperation of Biochemical and Biotechnology 45:754–768
- Mahadevan A, Sivaswamy S N (1985). Tannins and microorganisms. In: Mukerji K G (ed), Frontiers in applied microbiology, Lucknow, India: Print house, pp. 327–347
- Murugan K, Saravanababu S, Arunachalam M (2007). Screening of tannin acyl hydrolase (E.C.3.1.1.20) producing tannery effluent fungal isolates using simple agar plate and smf process. Bioresource Technology 98(4):946–949
- Raper K B, Fennell D I (1965). The genus Aspergillus. Huntington, New York
- Schoch C L, Seifert K A, Huhndorf S, Robert V, Spouge J L, Levesque C A et al. (2012). Nuclear ribosomal internal transcribed spacer (ITS) region as a universal DNA barcode marker for fungi. Proceedings of the National Academy of Sciences 109(16):6241–6246
- Sridevi B, Charya M A S (2011). Isolation, identification and screening of potential cellulase-free xylanase producing fungi. African Journal of Biotechnology 10(22):4624–4630
- Taskin E, Eltem R, da Silva E S, de Souza J V B (2008). Screening of Aspergillus strains isolated from vineyards for pectinase production. Journal of Food Agriculture and Environment 6(3–4):412–414
- Zeni J, Cence K, Grando C E, Tiggermann L, Colet R, Lerin L A et al. (2011). Screening of pectinase-producing microorganisms with polygalacturonase activity. Applied Biochemistry Biotechnology 163(3):383–392
- Zheng L, Du B, Xue W (2011). Screening and identification of Acinetobacter junii for Apocynum vernetum L. fiber enzymatic retting. Journal of Textile Institute 102(8):675–680
Production of Multiple Hydrolytic Enzymes by Black Aspergilli Isolated from Date and Grape
Year 2019,
Volume: 25 Issue: 4, 459 - 466, 05.12.2019
Zehra Gulsunoglu
,
Meral Kilic-akyilmaz
,
Funda Karbancioglu-guler
,
Katleen Raes
Abstract
including cellulase, tannase and pectinase. Isolates were morphologically and molecularly identified as Aspergillus niger, Aspergillus tubingensis, Aspergillus japonicus and Aspergillus aculeatus. Isolates were screened for enzyme production ability on solid and in liquid media. Enzymatic activity was determined in the culture filtrate of liquid medium. A total of six isolates were found to produce multiple hydrolytic enzymes. The highest activity of cellulase was produced by A. japonicus ZGM4 and A. aculeatus ZGM6 as 40 and 35 U g-1 dry biomass, respectively. All the isolates exhibited high level of tannase activity in the range of 150-343 U g-1 dry biomass after 24 h of incubation. A. tubingensis ZGM5 and A. aculeatus ZGM6 were found to produce the highest pectinase activity at a level of 130 and 117 U g-1 dry biomass, respectively. In the light of these results, isolates can be used for multiple hydrolytic enzyme production in industry.
References
- Ang S K, Shaza E M, Adibah Y, Suraini A A, Madihah M S (2013). Production of cellulases and xylanase by Aspergillus fumigatus SK1 using untreated oil palm trunk through solid state fermentation. Process Biochemistry 48(9):1293–1302
- Banerjee D, Mondal K, Pati B (2007). Tannase production by Aspergillus aculeatus DBF9 through solid state fermentation. Acta Microbiologica et Immunologica Hungarica 54(2):159–166
- Botella C, De Ory I, Webb C, Cantero D, Blandino A (2005). Hydrolytic enzyme production by Aspergillus awamori on grape pomace. Biochemical Engineering Journal 26(2):100–106
- Bradoo S, Gupta R, Saxena R K (1996). Screening of extracellular tannase-producing fungi: Development of a rapid and simple plate assay. Journal of General and Applied Microbiology 42:325–329
- Debing J, Peijun L, Stagnitti F, Xianzhe X, Ling L (2006). Pectinase production by solid fermentation from Aspergillus niger by a new prescription experiment. Ecotoxicology and Environmental Safety 64(2):244–250
- Gautam S P, Bundela P S, Pandey A K, Khan J, Awasthi M K, Sarsaiya S (2011). Optimization for the production of cellulase enzyme from municipal solid waste residue by two novel cellulolytic fungi. Biotechnology Research International, 2011:1-8
- GenBank (2016). Bethesda, M D, USA: National Center for Biotechnology Information (NCBI), US National Library of Medicine. Retrieved in June, 25, 2016 from http://www.ncbi.nlm.nih.gov/
- Jayani R S, Saxena S, Gupta R (2005). Microbial pectinolytic enzymes: A review. Process Biochemistry 40(9):2931–2944
- Kar B, Banerjee R (2000). Biosynthesis of tannin acyl hydrolase from tannin-rich forest residue under different fermentation conditions. Journal of Industrial Microbiology and Biotechnology 25(1):29–38
- Klich M A (2002). Identification of common Aspergillus species. Utrecht, The Netherlands
- Kuhad R C, Gupta R, Singh A (2011). Microbial cellulases and their industrial applications. Enzyme Research, doi:10.4061/2011/280696
- Lagemaat J V D, Pyle D L (2001). Solid-state fermentation and bioremediation: Development of a continuous process for the production of fungal tannase. Chemical Engineering Journal 84:115–123
- Ma W L, Zhao F F, Ye Q, Hu Z X, Yan D, Hou J, Yang Y (2015). Production and partial purification of tannase from Aspergillus ficuum Gim 3.6. Preperation of Biochemical and Biotechnology 45:754–768
- Mahadevan A, Sivaswamy S N (1985). Tannins and microorganisms. In: Mukerji K G (ed), Frontiers in applied microbiology, Lucknow, India: Print house, pp. 327–347
- Murugan K, Saravanababu S, Arunachalam M (2007). Screening of tannin acyl hydrolase (E.C.3.1.1.20) producing tannery effluent fungal isolates using simple agar plate and smf process. Bioresource Technology 98(4):946–949
- Raper K B, Fennell D I (1965). The genus Aspergillus. Huntington, New York
- Schoch C L, Seifert K A, Huhndorf S, Robert V, Spouge J L, Levesque C A et al. (2012). Nuclear ribosomal internal transcribed spacer (ITS) region as a universal DNA barcode marker for fungi. Proceedings of the National Academy of Sciences 109(16):6241–6246
- Sridevi B, Charya M A S (2011). Isolation, identification and screening of potential cellulase-free xylanase producing fungi. African Journal of Biotechnology 10(22):4624–4630
- Taskin E, Eltem R, da Silva E S, de Souza J V B (2008). Screening of Aspergillus strains isolated from vineyards for pectinase production. Journal of Food Agriculture and Environment 6(3–4):412–414
- Zeni J, Cence K, Grando C E, Tiggermann L, Colet R, Lerin L A et al. (2011). Screening of pectinase-producing microorganisms with polygalacturonase activity. Applied Biochemistry Biotechnology 163(3):383–392
- Zheng L, Du B, Xue W (2011). Screening and identification of Acinetobacter junii for Apocynum vernetum L. fiber enzymatic retting. Journal of Textile Institute 102(8):675–680