Integrated lipase production and in situ biodiesel synthesis in a recombinant Pichia pastoris yeast: an efficient dual biocatalytic system composed of cell free enzymes and whole cell catalysts
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  • 作者:Jinyong Yan ; Xianliang Zheng ; Lei Du ; Shengying Li
  • 关键词:Integrated biodiesel production ; Lipase ; Pichia pastoris ; Thermomyces lanuginosus ; Waste cooking oils
  • 刊名:Biotechnology for Biofuels
  • 出版年:2014
  • 出版时间:December 2014
  • 年:2014
  • 卷:7
  • 期:1
  • 全文大小:392 KB
  • 参考文献:1. Lam, MK, Lee, KT, Mohamed, AR (2010) Homogeneous, heterogeneous and enzymatic catalysis for transesterification of high free fatty acid oil (waste cooking oil) to biodiesel: a review. Biotechnol Adv 28: pp. 500-518 CrossRef
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    4. Balasubramaniam, B, Perumal, AS, Jayaraman, J, Mani, J, Ramanujam, P (2012) Comparative analysis for the production of fatty acid alkyl esterase using whole cell biocatalyst and purified enzyme from Rhizopus oryzae on waste cooking oil (sunflower oil). Waste Manage 32: pp. 1539-1547 CrossRef
    5. Takaya, T, Koda, R, Adachi, D, Nakashima, K, Wada, J, Bogaki, T, Ogino, C, Kondo, A (2011) Highly efficient biodiesel production by a whole-cell biocatalyst employing a system with high lipase expression in Aspergillus oryzae. Appl Microbiol Biotechnol 90: pp. 1171-1177 CrossRef
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    7. Matsumoto, T, Fukuda, H, Ueda, M, Tanaka, A, Kondo, A (2002) Construction of yeast strains with high cell surface lipase activity by using novel display systems based on the Flo1p flocculation functional domain. Appl Environ Microbiol 68: pp. 4517-4522 CrossRef
    8. Jin, Z, Han, SY, Zhang, L, Zheng, SP, Wang, Y, Lin, Y (2013) Combined utilization of lipase-displaying Pichia pastoris whole-cell biocatalysts to improve biodiesel production in co-solvent media. Bioresour Technol 130: pp. 102-109 CrossRef
    9. Matsumoto, T, Takahashi, S, Kaieda, M, Ueda, M, Tanaka, A, Fukuda, H, Kondo, A (2001) Yeast whole-cell biocatalyst constructed by intracellular overproduction of Rhizopus oryzae lipase is applicable to biodiesel fuel production. Appl Microbiol Biotechnol 57: pp. 515-520 CrossRef
    10. Yan, JY, Zheng, XL, Li, SY (2014) A novel and robust recombinant Pichia pastoris yeast whole cell biocatalyst with intracellular overexpression of a Thermomyces lanuginosus lipase: preparation, characterization and application in biodiesel production. Bioresour Technol 151: pp. 43-48 CrossRef
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  • 刊物类别:Chemistry and Materials Science
  • 刊物主题:Biotechnology
    Plant Breeding/Biotechnology
    Renewable and Green Energy
    Environmental Engineering/Biotechnology
  • 出版者:BioMed Central
  • ISSN:1754-6834
文摘
Background Lipase-catalyzed biotransformation of acylglycerides or fatty acids into biodiesel via immobilized enzymes or whole cell catalysts has been considered as one of the most promising methods to produce renewable and environmentally friendly alternative liquid fuels, thus being extensively studied so far. In all previously pursued approaches, however, lipase enzymes are prepared in an independent process separated from enzymatic biodiesel production, which would unavoidably increase the cost and energy consumption during industrial manufacture of this cost-sensitive energy product. Therefore, there is an urgent need to develop novel cost-effective biocatalysts and biocatalytic processes with genuine industrial feasibility. Result Inspired by the consolidated bioprocessing of lignocellulose to generate bioethanol, an integrated process with coupled lipase production and in situ biodiesel synthesis in a recombinant P. pastoris yeast was developed in this study. The novel and efficient dual biocatalytic system based on Thermomyces lanuginosus lipase took advantage of both cell free enzymes and whole cell catalysts. The extracellular and intracellular lipases of growing yeast cells were simultaneously utilized to produce biodiesel from waste cooking oils in situ and in one pot. This integrated system effectively achieved 58% and 72% biodiesel yield via concurrent esterified-transesterified methanolysis and stepwise hydrolysis-esterification at 3:1 molar ratio between methanol and waste cooking oils, respectively. Further increasing the molar ratio of methanol to waste cooking oils to 6:1 led to an 87% biodiesel yield using the stepwise strategy. Both water tolerance and methanol tolerance of this novel system were found to be significantly improved compared to previous non-integrated biodiesel production processes using separately prepared immobilized enzymes or whole cell catalysts. Conclusion We have proposed a new concept of integrated biodiesel production. This integrated system couples lipase production to lipase-catalyzed biodiesel synthesis in one pot. The proof-of-concept was established through construction of a recombinant P. pastoris yeast strain that was able to grow, overexpress T. lanuginosus lipase, and efficiently catalyze biodiesel production from fed waste cooking oils and methanol simultaneously. This simplified single-step process represents a significant advance toward achieving economical production of biodiesel at industrial scale via a ‘green-biocatalytic route.
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