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Improvement of [epsilon]-Poly-l-Lysine Production Through Seed Stage Development Based on In Situ pH Monitoring
Nissin, natamycin, and [straight epsilon]-poly-l-lysine ([straight epsilon]-PL) are three safe, microbial-produced food preservatives used today in the food industry. However, current industrial production of [straight epsilon]-PL is only performed in several countries. In order to realize large-sca...
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| Published in: | Applied biochemistry and biotechnology 2015-01, Vol.175 (2), p.802 |
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| container_title | Applied biochemistry and biotechnology |
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| creator | Sun, Qi-xing Chen, Xu-sheng Ren, Xi-dong Mao, Zhong-gui |
| description | Nissin, natamycin, and [straight epsilon]-poly-l-lysine ([straight epsilon]-PL) are three safe, microbial-produced food preservatives used today in the food industry. However, current industrial production of [straight epsilon]-PL is only performed in several countries. In order to realize large-scale [straight epsilon]-PL production by fermentation, the effects of seed stage on cell growth and [straight epsilon]-PL production were investigated by monitoring of pH in situ in a 5-L laboratory-scale fermenter. A significant increase in [straight epsilon]-PL production in fed-batch fermentation by Streptomyces sp. M-Z18 was achieved, at 48.9 g/L, through the optimization of several factors associated with seed stage, including spore pretreatment, inoculum age, and inoculum level. Compared with conventional fermentation approaches using 24-h-old shake-flask seed broth as inoculum, the maximum [straight epsilon]-PL concentration and productivity were enhanced by 32.3 and 36.6 %, respectively. The effect of optimized inoculum conditions on [straight epsilon]-PL production on a large scale was evaluated using a 50-L pilot-scale fermenter, attaining a maximum [straight epsilon]-PL production of 36.22 g/L in fed-batch fermentation, constituting the first report of [straight epsilon]-PL production at pilot scale. These results will be helpful for efficient [straight epsilon]-PL production by Streptomyces at pilot and plant scales. |
| doi_str_mv | 10.1007/s12010-014-1329-9 |
| format | article |
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However, current industrial production of [straight epsilon]-PL is only performed in several countries. In order to realize large-scale [straight epsilon]-PL production by fermentation, the effects of seed stage on cell growth and [straight epsilon]-PL production were investigated by monitoring of pH in situ in a 5-L laboratory-scale fermenter. A significant increase in [straight epsilon]-PL production in fed-batch fermentation by Streptomyces sp. M-Z18 was achieved, at 48.9 g/L, through the optimization of several factors associated with seed stage, including spore pretreatment, inoculum age, and inoculum level. Compared with conventional fermentation approaches using 24-h-old shake-flask seed broth as inoculum, the maximum [straight epsilon]-PL concentration and productivity were enhanced by 32.3 and 36.6 %, respectively. The effect of optimized inoculum conditions on [straight epsilon]-PL production on a large scale was evaluated using a 50-L pilot-scale fermenter, attaining a maximum [straight epsilon]-PL production of 36.22 g/L in fed-batch fermentation, constituting the first report of [straight epsilon]-PL production at pilot scale. 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The effect of optimized inoculum conditions on [straight epsilon]-PL production on a large scale was evaluated using a 50-L pilot-scale fermenter, attaining a maximum [straight epsilon]-PL production of 36.22 g/L in fed-batch fermentation, constituting the first report of [straight epsilon]-PL production at pilot scale. 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| subjects | Bacteria Biotechnology Fermentation Food preservation Glycerol Industrial production Preservatives |
| title | Improvement of [epsilon]-Poly-l-Lysine Production Through Seed Stage Development Based on In Situ pH Monitoring |
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