| Literature DB >> 33105706 |
Van Bon Nguyen1, Dai Nam Nguyen2, Anh Dzung Nguyen2, Van Anh Ngo2, That Quang Ton3,4, Chien Thang Doan5,6, Thi Phuong Pham5, Thi Phuong Hanh Tran5, San-Lang Wang6,7.
Abstract
This study aimed to establish the culture process for the cost-effective production of prodigiosin (Entities:
Keywords: Serratia marcescens; anticancers; antioxidants; bioprocessing; bioreactor system; crab shells; prodigiosin
Mesh:
Substances:
Year: 2020 PMID: 33105706 PMCID: PMC7690397 DOI: 10.3390/md18110523
Source DB: PubMed Journal: Mar Drugs ISSN: 1660-3397 Impact factor: 5.118
Figure 1The chemical structures of the pigments belonging to the family of prodiginines. Prodigiosin (1), Undecylprodigiosin (2), Metacylprodigiosin (3), Cycloprodigiosin (4), and Streptorubin B (5).
Figure 2The effect of sources of protein added (a) and casein/de-CSP ratio (b) on PG production. The C/N was a mixture of 1% crab shell and 0.6% free protein (a), or the combination of casein and de-CSP at different ratios and used at 1.6% as the C/N source (b) in a basal salt solution of 0.1% CaSO4, 0.05% K2HPO4 and a pH of 6.15 for fermentation by S. marcescens TKU011 under the fermentation conditions of 25 °C, a duration of 2 days, a shaking speed of 150 rpm in the dark, and a culture medium/flask volume ratio of 3/7 (v/v) (30 mL of liquid culture medium in a 100 mL flask). The column with red color indicated that it is the factor chosen for further investigation.
PG production by various strains of Serratia marcescens.
| No. | Bacterial Strains | Prodigiosin (mg/mL) |
|---|---|---|
| 1 | 3.52 ± 0.134 | |
| 2 | 3.59 ± 0.153 | |
| 3 | 3.61 ± 0.163 | |
| 4 | 2.73 ± 0.102 | |
| No bacterial strain | - |
The liquid medium contained 0.1% CaSO4, 0.05% K2HPO4, 1.6% C/N source (casein/de-CSP = 3/7) and had a pH 6.15. These designed mediums were fermented by four strains of S. marcescens at 25 °C at a shaking speed of 150 rpm in the dark for 2 days. (-) No PG production.
Figure 3The influence of (a) sulfate salts, (b) (NH4)2SO4; (c) phosphate salts; (d) KH2PO4; (e) fermentation temperature; (f) initial pH of the culture medium; (g) the percentage of culture medium; (h) time course of fermentation on PG production by S. marcescens TNU02 fermentation. The column with red color indicated that it is the factor chosen for further investigation.
Cultivation conditions for PG production before and after optimization.
| Factors | Before Optimization | After Optimization |
|---|---|---|
| C/N source | Casein/de-CSP = 6/10 | Casein/de-CSP = 3/7 |
| Salts compositions | 0.05% K2HPO4 and 0.1% CaSO4 | 0.1% KH2PO4 and 0.02% (NH4)2SO4 |
| Cultivation temperature (°C) | 25 | 27 |
| Medium/flask volume ratio | 4/10 | 3/10 |
| Initial pH of medium | 6.15 | 6.15 |
| Fermentation time (days) | 3 | 2 |
| PG Productivity (mg/mL) | 3.01 | 4.51 |
Figure 4Production of PG by S. marcescens TNU02 in a 15 L bioreactor system and in a 100 mL flask. 450 mL of S. marcescens TNU02 was previously fermented in a 1000 mL flask for 2 days and then injected into a 15 L bioreactor system containing 4.05 L of a culture medium containing 1.6% C/N source (a casein/de-CSP ratio of 3/7), salt compositions of 0.1% KH2PO4 and 0.02% (NH4)2SO4, and an initial pH of 6.15. Fermentation was also conducted in a 100 mL flask for comparison. Sampling and determination of the PG concentration was performed every 2 h until 12 h of fermentation had passed in the bioreactor system. Fermentation in the 100 mL flask was also performed at the same time for comparison, and the sampling and determination of the PG concentration was performed every 8 h, up to 48 h during the cultivation.
Figure 5The process of PG production and purification in a 15 L bioreactor system. The liquid medium at the start of fermentation (A) turned red after being fermented by S. marcescens TNU02 over 8 h (B). The red pigment PG was purified via the separation layer by ethyl acetate (C) and then further separated in a column containing silica gel (D) and was finally isolated by TLC separation (E).
Figure 6MALDI-TOF MS spectrum of the purified PG produced by S. marcescens TNU02 analyzed using the method described in our previous report [32].
Figure 7The UV absorption spectrum of S. marcescens TNU02 PG produced in a 15 L bioreactor system.
Figure 8Antioxidant (a) and anticancer effects (b) of PG produced by S. marcescens TNU02 PG in a 15 L bioreactor system.