Literature DB >> 20229332

Reduction of fatty acid flux results in enhancement of astaxanthin synthesis in a mutant strain of Phaffia rhodozyma.

Lili Miao1, Yongxing Wang, Shuang Chi, Jiacong Yan, Guohua Guan, Bodi Hui, Ying Li.   

Abstract

A moderate-temperature mutant strain of the yeast Phaffia rhodozyma, termed MK19, was selected by 1-methyl-3-nitro-1-nitrosoguanidine (NTG) and Co60 mutagenesis. MK19 displayed fast cell growth and elevated astaxanthin content at 25 degrees C, whereas optimal temperature for growth and astaxanthin synthesis of wild-type P. rhodozyma was 17-21 degrees C. Optimized astaxanthin yield for MK19 after 4 days culture in shaking flask at 25 degrees C, determined by response surface methodology, was 25.8 mg/l, which was 17-fold higher than that of the wild-type. MK19 was tolerant of high initial concentration of glucose (>100 g/l) in optimized medium. Total fatty acid content of MK19 was much lower than that of the wild-type. Acetyl-CoA is a common precursor of fatty acid and terpenoid biosynthesis, and it is possible that decreased fatty acid synthesis results in transfer of acetyl-CoA to the carotenoid biosynthetic pathway. Our results indicate that astaxanthin content is negatively correlated with fatty acid content in P. rhodozyma. Nutrient analysis showed that MK19 cells are enriched in lysine, vitamin E, and other rare nutrients, and have potential application as fish food without nutritional supplementation. This moderate-temperature mutant strain is a promising candidate for economical industrial-scale production.

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Year:  2010        PMID: 20229332     DOI: 10.1007/s10295-010-0706-9

Source DB:  PubMed          Journal:  J Ind Microbiol Biotechnol        ISSN: 1367-5435            Impact factor:   3.346


  13 in total

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4.  Quenching of singlet oxygen by carotenoids produced in escherichia coli - attenuation of singlet oxygen-mediated bacterial killing by carotenoids.

Authors:  H Tatsuzawa; T Maruyama; N Misawa; K Fujimori; M Nakano
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8.  Influence of Oxygen and Glucose on Primary Metabolism and Astaxanthin Production by Phaffia rhodozyma in Batch and Fed-Batch Cultures: Kinetic and Stoichiometric Analysis.

Authors:  Y Yamane; K Higashida; Y Nakashimada; T Kakizono; N Nishio
Journal:  Appl Environ Microbiol       Date:  1997-11       Impact factor: 4.792

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  11 in total

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3.  Overexpression of a bifunctional enzyme, CrtS, enhances astaxanthin synthesis through two pathways in Phaffia rhodozyma.

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Journal:  Microb Cell Fact       Date:  2015-06-18       Impact factor: 5.328

4.  Phenotypic Analysis of Mutants of Ergosterol Biosynthesis Genes (ERG3 and ERG4) in the Red Yeast Xanthophyllomyces dendrorhous.

Authors:  Maximiliano Venegas; Salvador Barahona; Ana María González; Dionisia Sepúlveda; Gustavo E Zúñiga; Marcelo Baeza; Víctor Cifuentes; Jennifer Alcaíno
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5.  Sterol Regulatory Element-Binding Protein (Sre1) Promotes the Synthesis of Carotenoids and Sterols in Xanthophyllomyces dendrorhous.

Authors:  María Soledad Gutiérrez; Sebastián Campusano; Ana María González; Melissa Gómez; Salvador Barahona; Dionisia Sepúlveda; Peter J Espenshade; María Fernández-Lobato; Marcelo Baeza; Víctor Cifuentes; Jennifer Alcaíno
Journal:  Front Microbiol       Date:  2019-03-29       Impact factor: 5.640

6.  Deregulation of phytoene-β-carotene synthase results in derepression of astaxanthin synthesis at high glucose concentration in Phaffia rhodozyma astaxanthin-overproducing strain MK19.

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8.  Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49.

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Review 9.  Deciphering the mechanism by which the yeast Phaffia rhodozyma responds adaptively to environmental, nutritional, and genetic cues.

Authors:  Luis B Flores-Cotera; Cipriano Chávez-Cabrera; Anahi Martínez-Cárdenas; Sergio Sánchez; Oscar Ulises García-Flores
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10.  Effectively Improve the Astaxanthin Production by Combined Additives Regulating Different Metabolic Nodes in Phaffia rhodozyma.

Authors:  Zhipeng Li; Haoyi Yang; Chenhua Zheng; Xiping Du; Hui Ni; Ning He; Liang Yang; Li You; Yanbing Zhu; Lijun Li
Journal:  Front Bioeng Biotechnol       Date:  2022-01-17
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