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Literature DB >> 27207225

Metabolic Engineering for Expanding the Substrate Range of Yarrowia lipolytica.

Rodrigo Ledesma-Amaro¹, Jean-Marc Nicaud².

Abstract

Economically viable biotechnology processes must be characterized by a favorable ratio between the production costs and the product market price. In the bioproduction of bulk chemicals, costs must be minimized so that the process is competitive relative to petroleum-based production. The substrate costs must thus be reduced by employing inexpensive carbon sources, such as industrial wastes. Unfortunately, the most convenient microorganisms for a bioconversion are typically unable to degrade such substrates. Fortunately, the discovery of new enzymes together with advances in synthetic biology has moved metabolic engineering forward, expanding substrate ranges. Here we review the latest advances made using the industrial yeast Yarrowia lipolytica, which can exploit various carbon sources to produce biofuels and chemicals.

Entities: Chemical Species

Keywords: Yarrowia lipolytica; industrial microbiology; lignocellulosic biomass; microbial biotechnology; substrate engineering; synthetic biology

Mesh：

Substances：
Biofuels
Carbon

Year: 2016 PMID： 27207225 DOI： 10.1016/j.tibtech.2016.04.010

Source DB: PubMed Journal: Trends Biotechnol ISSN： 0167-7799 Impact factor: 19.536

Keyword Cloud
Cited

41 in total

1. A New Recombinant Strain of Yarrowia lipolytica Producing Encapsulated Phytase from Obesumbacterium proteus.

Authors: E P Isakova; E G Serdyuk; N N Gessler; E V Trubnikova; Y K Biryukova; E Y Epova; Y I Deryabina; A V Nikolaev
Journal: Dokl Biochem Biophys Date: 2018-08-31 Impact factor: 0.788

Review 2. Engineering Yarrowia lipolytica for Use in Biotechnological Applications: A Review of Major Achievements and Recent Innovations.

Authors: Catherine Madzak
Journal: Mol Biotechnol Date: 2018-08 Impact factor: 2.695

Review 3. Synthetic biology, systems biology, and metabolic engineering of Yarrowia lipolytica toward a sustainable biorefinery platform.

Authors: Jingbo Ma; Yang Gu; Monireh Marsafari; Peng Xu
Journal: J Ind Microbiol Biotechnol Date: 2020-07-04 Impact factor: 3.346

Review 4. Bioproduction of riboflavin: a bright yellow history.

Authors: José Luis Revuelta; Rodrigo Ledesma-Amaro; Patricia Lozano-Martinez; David Díaz-Fernández; Rubén M Buey; Alberto Jiménez
Journal: J Ind Microbiol Biotechnol Date: 2016-09-30 Impact factor: 3.346

5. Application of a ω-3 Desaturase with an Arachidonic Acid Preference to Eicosapentaenoic Acid Production in Mortierella alpina.

Authors: Chengfeng Ge; Haiqin Chen; Tiantian Mei; Xin Tang; Lulu Chang; Zhennan Gu; Hao Zhang; Wei Chen; Yong Q Chen
Journal: Front Bioeng Biotechnol Date: 2018-01-22

6. Inference and interrogation of a coregulatory network in the context of lipid accumulation in Yarrowia lipolytica.

Authors: Pauline Trébulle; Jean-Marc Nicaud; Christophe Leplat; Mohamed Elati
Journal: NPJ Syst Biol Appl Date: 2017-08-11

7. Mutants of Yarrowia lipolytica NCIM 3589 grown on waste cooking oil as a biofactory for biodiesel production.

Authors: Gouri Katre; Namasvi Ajmera; Smita Zinjarde; Ameeta RaviKumar
Journal: Microb Cell Fact Date: 2017-10-24 Impact factor: 5.328

Review 8. Integrating Cellular and Bioprocess Engineering in the Non-Conventional Yeast Yarrowia lipolytica for Biodiesel Production: A Review.

Authors: Dongming Xie
Journal: Front Bioeng Biotechnol Date: 2017-10-17

9. Multiple gene integration to promote erythritol production on glycerol in Yarrowia lipolytica.

Authors: Ling Zhang; Ming-Yue Nie; Feng Liu; Jun Chen; Liu-Jing Wei; Qiang Hua
Journal: Biotechnol Lett Date: 2021-04-02 Impact factor: 2.461

10. Comparative Genomics Analysis of Keratin-Degrading Chryseobacterium Species Reveals Their Keratinolytic Potential for Secondary Metabolite Production.

Authors: Dingrong Kang; Saeed Shoaie; Samuel Jacquiod; Søren J Sørensen; Rodrigo Ledesma-Amaro
Journal: Microorganisms Date: 2021-05-12