Protoplast mutant selection of Glarea Lozoyensis and statistical optimization of medium for pneumocandin B0 yield-up

Tingting Qin; Ping Song; Xiaoting Wang; Xiaojun Ji; Lujing Ren; He Huang

doi:10.1080/09168451.2016.1196575

Protoplast mutant selection of Glarea Lozoyensis and statistical optimization of medium for pneumocandin B₀ yield-up

Tingting Qin, Ping Song, Xiaoting Wang, Xiaojun Ji, Lujing Ren, He Huang

COLLEGE OF BIOTECHNOLOGY AND PHARMACEUTICAL ENGINEERING

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

A combination of microbial strain improvement and statistical optimization is investigated to maximize pneumocandin B₀ production from Glarea lozoyensis ATCC 74030. Atmospheric and room temperature plasma (ARTP) was used to enhance G. lozoyensis ATCC 74030 in pneumocandin B₀ yield. Mutant strain G. lozoyensis Q1 exhibited 1.39-fold increase in pneumocandin B₀ production to 1134 mg/L when compared with the parent strain (810 mg/L). Further, the optimized medium provided another 1.65-fold in final pneumocandin B₀ concentration to 1873 mg/L compared to the original medium. The results of this study indicated the combined application of a classical mutation and medium optimization can improve effectively pneumocandin B₀ production from G. lozoyensis and could be a tool to improve other secondary metabolites production by fungal strains.

Original language	English
Pages (from-to)	2241-2246
Number of pages	6
Journal	Bioscience, Biotechnology and Biochemistry
Volume	80
Issue number	11
DOIs	https://doi.org/10.1080/09168451.2016.1196575
State	Published - 2016

Keywords

ARTP
Glarea lozoyensis
Medium optimization
Orthogonal arrays
Pneumocandin B

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10.1080/09168451.2016.1196575

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title = "Protoplast mutant selection of Glarea Lozoyensis and statistical optimization of medium for pneumocandin B0 yield-up",

abstract = "A combination of microbial strain improvement and statistical optimization is investigated to maximize pneumocandin B0 production from Glarea lozoyensis ATCC 74030. Atmospheric and room temperature plasma (ARTP) was used to enhance G. lozoyensis ATCC 74030 in pneumocandin B0 yield. Mutant strain G. lozoyensis Q1 exhibited 1.39-fold increase in pneumocandin B0 production to 1134 mg/L when compared with the parent strain (810 mg/L). Further, the optimized medium provided another 1.65-fold in final pneumocandin B0 concentration to 1873 mg/L compared to the original medium. The results of this study indicated the combined application of a classical mutation and medium optimization can improve effectively pneumocandin B0 production from G. lozoyensis and could be a tool to improve other secondary metabolites production by fungal strains.",

keywords = "ARTP, Glarea lozoyensis, Medium optimization, Orthogonal arrays, Pneumocandin B",

author = "Tingting Qin and Ping Song and Xiaoting Wang and Xiaojun Ji and Lujing Ren and He Huang",

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doi = "10.1080/09168451.2016.1196575",

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T1 - Protoplast mutant selection of Glarea Lozoyensis and statistical optimization of medium for pneumocandin B0 yield-up

AU - Qin, Tingting

AU - Song, Ping

AU - Wang, Xiaoting

AU - Ji, Xiaojun

AU - Ren, Lujing

AU - Huang, He

PY - 2016

Y1 - 2016

N2 - A combination of microbial strain improvement and statistical optimization is investigated to maximize pneumocandin B0 production from Glarea lozoyensis ATCC 74030. Atmospheric and room temperature plasma (ARTP) was used to enhance G. lozoyensis ATCC 74030 in pneumocandin B0 yield. Mutant strain G. lozoyensis Q1 exhibited 1.39-fold increase in pneumocandin B0 production to 1134 mg/L when compared with the parent strain (810 mg/L). Further, the optimized medium provided another 1.65-fold in final pneumocandin B0 concentration to 1873 mg/L compared to the original medium. The results of this study indicated the combined application of a classical mutation and medium optimization can improve effectively pneumocandin B0 production from G. lozoyensis and could be a tool to improve other secondary metabolites production by fungal strains.

AB - A combination of microbial strain improvement and statistical optimization is investigated to maximize pneumocandin B0 production from Glarea lozoyensis ATCC 74030. Atmospheric and room temperature plasma (ARTP) was used to enhance G. lozoyensis ATCC 74030 in pneumocandin B0 yield. Mutant strain G. lozoyensis Q1 exhibited 1.39-fold increase in pneumocandin B0 production to 1134 mg/L when compared with the parent strain (810 mg/L). Further, the optimized medium provided another 1.65-fold in final pneumocandin B0 concentration to 1873 mg/L compared to the original medium. The results of this study indicated the combined application of a classical mutation and medium optimization can improve effectively pneumocandin B0 production from G. lozoyensis and could be a tool to improve other secondary metabolites production by fungal strains.

KW - ARTP

KW - Glarea lozoyensis

KW - Medium optimization

KW - Orthogonal arrays

KW - Pneumocandin B

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DO - 10.1080/09168451.2016.1196575

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SN - 0916-8451

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JO - Bioscience, Biotechnology and Biochemistry

JF - Bioscience, Biotechnology and Biochemistry

IS - 11

ER -

Protoplast mutant selection of Glarea Lozoyensis and statistical optimization of medium for pneumocandin B₀ yield-up

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