Improving the regeneration rate of deep lethal mutant protoplasts by fusion to promote efficient L-lysine fermentation

Li, Nan; Lü, Jie; Wang, Zirui; Du, Peijun; Li, Piwu; Su, Jing; Xiao, Jing; Wang, Min; Wang, Junqing; Wang, Ruiming

doi:10.1186/s12896-023-00792-8

Cited by 3 publications

(1 citation statement)

References 33 publications

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“…The contents of adenosine, biomass, cordycepic acid, cordycepin, total polysaccharides and total triterpenes of the fusants obtained using protoplast fusion of A. cinnamomea and C. militaris were significantly increased [34]. These results showed that the use of protoplast fusion technology to recombine the nucleus and cytoplasm of parents can significantly increase the content of active substances [46,47].…”

Section: Discussionmentioning

confidence: 78%

Interspecific Hybridization between Ganoderma lingzhi and G. resinaceum by PEG-Induced Double-Inactivated Protoplast Fusion

Li,

Liu,

et al. 2023

Horticulturae

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Ganoderma lingzhi is an important medicinal fungus, and it is particularly important to select strains with high yields and active substance contents. In this study, protoplasts of G. lingzhi were thermally inactivated to destroy intracellular enzyme proteins and preserve DNA. The DNA of G. resinaceum was damaged by ultraviolet (UV) radiation, and other components of the protoplasm except DNA were preserved. Then, the protoplast was induced using polyethylene glycol (PEG) for fusion. The results showed that the optimal thermal inactivation conditions for G. lingzhi were 30 min in a 45 °C water bath, and the optimal UV inactivation conditions for G. resinaceum were 70 s of irradiation using a 20 W UV lamp at a vertical distance of 15 cm. Antagonistic tests, internal transcribed space (ITS) and mitochondrial DNA identification, intersimple sequence repeat (ISSR) molecular markers and morphology were used to distinguish the parents from the fusants. Four true fusants were obtained, and the yield was 2.5%. The fruiting body yield of the fusants was significantly higher than that of G. lingzhi, and the polysaccharide and triterpene contents of the RAD-64 fusant were significantly higher than those of G. lingzhi. The results presented in this paper show that protoplast fusion technology can effectively improve G. lingzhi varieties and support the breeding of new varieties.

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Section: Discussionmentioning

confidence: 78%

Interspecific Hybridization between Ganoderma lingzhi and G. resinaceum by PEG-Induced Double-Inactivated Protoplast Fusion

Li,

Liu,

et al. 2023

Horticulturae

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Enhanced Production of Sisomicin in Micromonospora inyoensis by Protoplast Mutagenesis and Fermentation Optimization

Xu,

Shen,

et al. 2024

Appl Biochem Biotechnol

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Optimizing Escherichia coli strains and fermentation processes for enhanced L-lysine production: a review

Wu,

Chen,

Sun

et al. 2024

Front. Microbiol.

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lysine is an essential amino acid with significant importance, widely used in the food, feed, and pharmaceutical industries. To meet the increasing demand, microbial fermentation has emerged as an effective and sustainable method for L-lysine production. Escherichia coli has become one of the primary microorganisms for industrial L-lysine production due to its rapid growth, ease of genetic manipulation, and high production efficiency. This paper reviews the recent advances in E. coli strain engineering and fermentation process optimization for L-lysine production. Additionally, it discusses potential technological breakthroughs and challenges in E. coli-based L-lysine production, offering directions for future research to support industrial-scale production.

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Improving the regeneration rate of deep lethal mutant protoplasts by fusion to promote efficient L-lysine fermentation

Cited by 3 publications

References 33 publications

Interspecific Hybridization between Ganoderma lingzhi and G. resinaceum by PEG-Induced Double-Inactivated Protoplast Fusion

Interspecific Hybridization between Ganoderma lingzhi and G. resinaceum by PEG-Induced Double-Inactivated Protoplast Fusion

Enhanced Production of Sisomicin in Micromonospora inyoensis by Protoplast Mutagenesis and Fermentation Optimization

Optimizing Escherichia coli strains and fermentation processes for enhanced L-lysine production: a review

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