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Literature DB >> 22465581

Economical production of poly(γ-glutamic acid) using untreated cane molasses and monosodium glutamate waste liquor by Bacillus subtilis NX-2.

Dan Zhang¹, Xiaohai Feng, Zhe Zhou, Yang Zhang, Hong Xu.

Abstract

The production of poly(γ-glutamic acid) by Bacillus subtilis NX-2 from cane molasses and monosodium glutamate waste liquor (MGWL) was studied for the first time in this work. When batch fermentation was carried out with untreated molasses, 33.6±0.37 g L(-1) PGA was obtained with a productivity of 0.46±0.006 g L(-1) h(-1). In order to minimize the substrate inhibition, fed-batch fermentation was performed with untreated or hydrolyzed molasses in 7.5 L bioreactor, giving 50.2±0.53 and 51.1±0.51 g L(-1) of PGA at 96 h, respectively. Further studies were carried out by using MGWL as another carbon source, resulting in a PGA concentration of 52.1±0.52 g L(-1) with a productivity of 0.54±0.003 g L(-1) h(-1). These results suggest that the low-cost cane molasses and MGWL can be used for the environmental-friendly and economical production of PGA by B. subtilis NX-2.

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Year: 2012 PMID： 22465581 DOI： 10.1016/j.biortech.2012.02.114

Source DB: PubMed Journal: Bioresour Technol ISSN： 0960-8524 Impact factor: 9.642

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Cited

11 in total

1. Effects of cell physiological structure on the fermentation broth viscosity during poly-γ-glutamic acid production by Bacillus subtilis GXA-28.

Authors: Lingfu Li; Yao Liu; Li Jiang; Su Ding; Guiguang Chen; Zhiqun Liang; Wei Zeng
Journal: Appl Biochem Biotechnol Date: 2020-09-16 Impact factor: 2.926

10. Poly-(γ-glutamic acid) Production and Optimization from Agro-Industrial Bioresources as Renewable Substrates by Bacillus sp. FBL-2 through Response Surface Methodology.

Authors: Da-Young Song; Lebaka Veeranjaneya Reddy; Dimitris Charalampopoulos; Young-Jung Wee
Journal: Biomolecules Date: 2019-11-20

Economical production of poly(γ-glutamic acid) using untreated cane molasses and monosodium glutamate waste liquor by Bacillus subtilis NX-2.

1. Effects of cell physiological structure on the fermentation broth viscosity during poly-γ-glutamic acid production by Bacillus subtilis GXA-28.

Review 2. Microbial production of poly-γ-glutamic acid.

3. Study on the mechanism of production of γ-PGA and nattokinase in Bacillus subtilis natto based on RNA-seq analysis.

4. Process optimization for mass production of 2,3-butanediol by Bacillus subtilis CS13.

Review 5. Recent Advances in Microbial Synthesis of Poly-γ-Glutamic Acid: A Review.

Review 6. From Residues to Added-Value Bacterial Biopolymers as Nanomaterials for Biomedical Applications.

Review 7. Microbial synthesis of poly-γ-glutamic acid: current progress, challenges, and future perspectives.

Review 8. Poly-γ-glutamic Acid Synthesis, Gene Regulation, Phylogenetic Relationships, and Role in Fermentation.

9. High-level production of poly-γ-glutamic acid from untreated molasses by Bacillus siamensis IR10.

10. Poly-(γ-glutamic acid) Production and Optimization from Agro-Industrial Bioresources as Renewable Substrates by Bacillus sp. FBL-2 through Response Surface Methodology.