Temporal dynamics of stress response in Halomonas elongata to NaCl shock: physiological, metabolomic, and transcriptomic insights

Yu, Junxiong; Zhang, Yue; Liu, Hao; Liu, Yuxuan; Mohsin, Ali; Liu, Zebo; Zheng, Yanning; Xing, Jianmin; Han, Jing; Zhuang, Yingping; Guo, Meijin; Wang, Zejian

doi:10.1186/s12934-024-02358-5

Microb Cell Fact

2024

DOI: 10.1186/s12934-024-02358-5

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Temporal dynamics of stress response in Halomonas elongata to NaCl shock: physiological, metabolomic, and transcriptomic insights

Junxiong Yu,

Yue Zhang,

Hao Liu

et al.

Abstract: Background The halophilic bacterium Halomonas elongata is an industrially important strain for ectoine production, with high value and intense research focus. While existing studies primarily delve into the adaptive mechanisms of this bacterium under fixed salt concentrations, there is a notable dearth of attention regarding its response to fluctuating saline environments. Consequently, the stress response of H. elongata to salt shock remains inadequately understood. … Show more

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Cited by 2 publications

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Altered sterol composition mediates multiple tolerance of Kluyveromyces marxianus for xylitol production

Ren,

Zha,

Zhang

et al. 2024

Microb Cell Fact

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Background Currently, the synthesis of compounds based on microbial cell factories is rapidly advancing, yet it encounters several challenges. During the production process, engineered strains frequently encounter disturbances in the cultivation environment or the impact of their metabolites, such as high temperature, acid-base imbalances, hypertonicity, organic solvents, toxic byproducts, and mechanical damage. These stress factors can constrain the efficiency of microbial fermentation, resulting in slow cell growth, decreased production, significantly increased energy consumption, and other issues that severely limit the application of microbial cell factories. Results This study demonstrated that sterol engineering in Kluyveromyces marxianus , achieved by overexpressing or deleting the coding genes for the last five steps of ergosterol synthase ( Erg2 - Erg6) , altered the composition and ratio of sterols in its cell membrane, and affected its multiple tolerance. The results suggest that the knockout of the Erg5 can enhance the thermotolerance of K. marxianus , while the overexpression of the Erg4 can improve its acid tolerance. Additionally, engineering strain overexpressed Erg6 improved its tolerance to elevated temperature, hypertonic, and acid. YZB453, obtained by overexpressing Erg6 in an engineering strain with high efficiency in synthesizing xylitol, produced 101.22 g/L xylitol at 45 o C and 75.11 g/L xylitol at 46 o C. Using corncob hydrolysate for simultaneous saccharification and fermentation (SSF) at 46 o C that xylose released from corncob hydrolysate by saccharification with hemicellulase, YZB453 can produce 45.98 g/L of xylitol, saving 53.72% of the cost of hemicellulase compared to 42 o C. Conclusions This study elucidates the mechanism by which K. marxianus acquires resistance to various antifungal drugs, high temperatures, high osmolarity, acidity, and other stressors, through alterations in the composition and ratio of membrane sterols. By employing sterol engineering, the fermentation temperature of this unconventional thermotolerant K. marxianus was further elevated, ultimately providing an efficient platform for synthesizing high-value-added xylitol from biomass via the SSF process at temperatures exceeding 45 °C. Supplementary Information The online version contains supplementary material available at 10.1186/s12934-024-02546-3.

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Altered sterol composition mediates multiple tolerance of Kluyveromyces marxianus for xylitol production

Ren,

Zha,

Zhang

et al. 2024

Microb Cell Fact

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Efficient Biosynthesis of Ectoine in Recombinant Escherichia coli by Biobrick Method

Naeem,

Yuan,

Luo

et al. 2024

Fermentation

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Ectoine is a compatible solute naturally produced in some halophilic bacteria as a protective agent for survival in salty environments. It has gained special interest as a therapeutic agent in the pharmaceutical and healthcare sectors for the treatment of different diseases. Ectoine mainly produced by bacterial milking, chemical, and fed-batch fermentation methods under a high-salt medium. Unfortunately, the ectoine yield through these methods is still too low to meet high industrial demand, causing salinity issues. The biobrick method was potentially utilized for efficient ectoine biosynthesis under a low-salt medium with different conditions in E. coli BL21(DE3) harboring the pET-22bNS-EctA-EctB-EctC plasmid. Firstly, three genes, L-2,4-diamino-butyric acid acetyltransferase (ectA), L-2,4-diaminobutyric acid transaminase (ectB), and ectoine synthase (ectC) from Bacillus pseudofirmus OF4, were precisely assembled and expressed into E. coli BL21(DE3). After optimizing the reaction conditions in a whole-cell catalytic reaction [50 mM of the sodium phosphate buffer (pH~7.5) containing 300 mM L-aspartic acid, 100 mM glycerol, 1/20 g/mL cell pellets], the amount of ectoine in the plasmid pET-22bNS-ALacBTacCTac reached the maximum level of 167.2 mg/mL/d (6.97 mg/mL/h). Moreover, Western blot analysis revealed that high expression levels of EctA and EctC had a significant effect on ectoine biosynthesis, indicating that both proteins might be the key enzymes in ectoine production. We conclude that a high amount of ectoine achieved through the biobrick method and efficiently used for different industrial applications.

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Temporal dynamics of stress response in Halomonas elongata to NaCl shock: physiological, metabolomic, and transcriptomic insights

Cited by 2 publications

References 48 publications

Altered sterol composition mediates multiple tolerance of Kluyveromyces marxianus for xylitol production

Altered sterol composition mediates multiple tolerance of Kluyveromyces marxianus for xylitol production

Efficient Biosynthesis of Ectoine in Recombinant Escherichia coli by Biobrick Method

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