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Biocatalysis and Biotransformation Volume 39, 2021 - Issue 3
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Research Articles

Response surface methodology for optimization of Rhizopus stolonifer 1aNRC11 mutant F whole-cell lipase production as a biocatalyst for methanolysis of waste frying oil

Sayeda S. Mohameda Department of Chemistry of Natural and Microbial Products, National Research Centre, Cairo, EgyptCorrespondence[email protected]
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,
Hanan M. Ahmeda Department of Chemistry of Natural and Microbial Products, National Research Centre, Cairo, EgyptView further author information
,
Magda A. El-Bendaryb Department of Microbial Chemistry, National Research Centre, Cairo, EgyptORCID Iconhttps://orcid.org/0000-0003-2413-0566View further author information
ORCID Icon,
Maysa E. Moharamb Department of Microbial Chemistry, National Research Centre, Cairo, EgyptView further author information
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Hala A. Amina Department of Chemistry of Natural and Microbial Products, National Research Centre, Cairo, EgyptView further author information
Pages 232-240 | Received 04 Feb 2020, Accepted 21 Dec 2020, Published online: 07 Jan 2021

References

  • Adinarayana K, Raju K, Zargar MI, Devi RB, Lakshmi PJ, Ellaiah P. 2004. Optimization of process parameters for production of lipase in solid-state fermentation by newly isolated Aspergillus species. Indian J Biotechnol. 3:65–69.
  • Ahmed HM, Mohamed SS, Moharam ME, Elbendary MA, Abd El-Lateaf HA, Amin HA. 2020. Statistical optimization of lipase production in solid state fermentation by Aspergillus tamarii NDA03a whole-cells as a biocatalyst for biodiesel production. Egypt Pharm J. (In press).
  • Chen G, Liu J, Yao J, Qi Y, Yan B. 2017. Biodiesel production from waste cooking oil in a magnetically fluidized bed reactor using whole-cell biocatalysts. Energy Convers Manage. 138:556–564.
  • Colla LM, Rizzardi J, Pinto MH, Reinehr CO, Bertolin TE, Vieira Costa JA. 2010. Simultaneous production of lipases and biosurfactants by submerged and solid-state bioprocesses. Bioresour Technol. 101(21):8308–8314.
  • Eijsink VG, Bjørk A, Gåseidnes S, Sirevåg R, Synstad B, van den Burg B, Vriend G. 2004. Rational engineering of enzyme stability. J Biotechnol. 113(1–3):105–120.
  • Elhussiny NI, Khattab AA, El-Refai HA, Mohamed SS, Shetaia YM, Amin HA. 2020. Biotransesterification capabilities of Mucorales whole-cell lipase isolates and mutants. Biocatal Agric Biotechnol. 28:101722.
  • Gutarra MLE, Godoy MG, Maugeri F, Rodrigues MI, Denise MGF, Castilho LR. 2009. Production of an acidic and thermostable lipase of the mesophilic fungus Penicillium simplicissimum by solid-state fermentation. Bioresour Technol. 100(21):5249–5254.
  • He Q, Shi H, Gu H, Naka G, Ding H, Li X, Zhang Y, Hu B, Wang F. 2015. Immobilization of Rizopus oryzae LY6 onto loofah sponge as a whole-cell biocatalyst for biodiesel production. BioRes. 11(1):850–860.
  • Iftikhar T, Haq IU, Javed MM. 2003. Optimization of cultural conditions for the production of lipase by submerged fermentation of Rhizopus oligosporous Tuv 31. Pak J Bot. 35 (Suppl 4):519–525.
  • Ikel A, Ersan M, Sag A, Ikel Y. 2010. Optimization of critical medium components using response surface methodology for lipase production by Rhizopus delemar. Food Bioprod Process. 88:31–39.
  • Kaieda M, Samukawa T, Matsumoto T, Ban K, Kondo A, Shimada Y, Noda H, Nomoto F, Ohtsuka K, Izumoto E, et al. 1999. Biodiesel fuel production from plant oil catalyzed by Rhizopus oryzae lipase in a water-containing system without an organic solvent. J Biosci Bioeng. 88(6):627–631.
  • Kumar A, Kanwar SS. 2012. Lipase Production in Solid-State Fermentation (SSF): recent developments and biotechnological applications. dynamic biochemistry. Process Biotechnol Mol Biol. 6:13–27.
  • Kumar SS, Gupta R. 2008. An extracellular lipase from Trichosporon asahii MSR 54: Medium optimization and enantioselective deacetylation of phenyl ethyl acetate. Process Biochem. 43(10):1054–1060.
  • Lall WS, Sirohi R, Prakash V. 2014. Process optimization for lipase production by solid state fermentation. World J Pharm Pharmaceut Sci. 3(10):703–712.
  • Mahapatra P, Kumari A, Garlapati VK, Banerjee R, Nag A. 2010. Optimization of process variables for lipase biosynthesis from Rhizopus oligosporus NRRL 5905 using evolutionary operation factorial design technique. Indian J Microbiol. 50(4):396–403.
  • Mitchell DA, Berovic M, Krieger N. 2002. Overview of solid state bioprocessing. Biotechnol Annu Rev. 8:183–225.
  • Oliveira F, Souza CE, Peclat VROL, Salgado JM, Ribeiro BD, Coelho MAZ, Venâncio A, Belo I. 2017. Optimization of lipase production by Aspergillus ibericus from oil cakes and its application in esterification reactions. Food Bioprod Process. 102:268–277.
  • Rattanaphra D, Harvey AP, Thanapimmetha A, Srinophakun P. 2011. Kinetic of myristic acid esterification with methanol in the presence of triglycerides over sulfated zirconia. Renew Energy. 36(10):2679–2686.
  • Razack SA, Duraiarasan S. 2016. Response surface methodology assisted biodiesel production from waste cooking oil using encapsulated mixed enzyme. Waste Manag. 47(Pt A):98–104.
  • Rezaei PS, Darzi GN, Shafaghat H. 2010. Optimization of the fermentation conditions and partial characterization for acido thermophilic – amylase from Aspergillus niger NCIM 548. Korean J Chem Eng. 27(3):919–924.
  • Riyadi FA, Alam Z, Salleh N, Salleh HM. 2017. Optimization of thermostable organic solvent tolerant lipase production by thermotolerant Rhizopus sp. using solid-state fermentation of palm kernel cake. 3 Biotech. 7(5):300.
  • Rodriguez JA, Mateos JC, Nungaray J, Gonza’Lez V, Bhagnagar T, Roussos S, Cordova J, Baratti J. 2006. Improving lipase production by nutrient source modification using Rhizopus homothallicus cultured in solid state fermentation. Process Biochem. 41(11):2264–2269.
  • Santos RCR, Vieira RB, Valentini A. 2014. Optimization study in biodiesel production via response surface methodology using dolomite as a heterogeneous catalyst. J Catalysts. 2014:1–11.
  • Santos R, Muruci LNM, Damaso MCT, Silva J, Santos LO. 2014. Lipase production by Aspergillus niger 11T53A14 in wheat bran using experimental design methodology. J Food Nutr Res. 2:659–663.
  • Sumathy R, Vijayalakshmi M, Deecaraman M. 2012. Studies on lipase production from fungal strains by different inducers at varied concentrations – a comparative study. Int J Environ Sci. 3(3):1072–1078.
  • Sun SY, Xu Y. 2008. Solid-state fermentation for whole-cell synthetic lipase production from Rhizopus chinensis and identification of the functional enzyme. Process Biochem. 43(2):219–224.
  • Ul-Haq I, Idrees S, Rajoka MI. 2002. Production of lipases by Rhizopus oligosporus by solid-state fermentation. Process Biochem. 37(6):637–641.
  • Vaseghi Z, Najafpour GD, Mohseni S, Mahjoub S. 2013. Production of active lipase by Rhizopus oryzae from sugarcane bagasse : solid state fermentation in a tray bioreactor. Original article: Production of active lipase by Rhizopus oryzae from sugarcane bagasse : solid state fermentation in a tray bioreactor. Int J Food Sci Technol. 48(2):283–289.
  • Vicente G, Martinez M, Aracil J. 2007. Optimization of integrated biodiesel production. Part 1. A study of the biodiesel purity and yield. Bioresour Technol. 98:1733–1742.
  • Wang YD, Shen XY, Li ZL, Li X, Wang F, Nie XA, Jiang JC. 2010. Immobilized recombinant Rhizopus oryzae lipase for the production of biodiesel in solvent free system. J Mol Catal B Enzym. 67(1–2):45–51.
  • Yan J, Zheng X, Li S. 2014. A novel and robust recombinant Pichia pastoris yeast whole cell biocatalyst with intracellular over expression of a Thermomyces lanuginosus lipase: preparation, characterization and application in biodiesel production. Bioresour Technol. 151:43–48.

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