Integrated strategy of temperature shift and mannitol feeding for enhanced production of echinocandin B by Aspergillus nidulans CCTCC M2012300
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The production of echinocandin B (ECB) by Aspergillus nidulans CCTCC M2012300 was improved by integrating the temperature-shift and fed-batch control strategies. The kinetic characteristics of batch cultures were analyzed at different culture temperatures, and then a two-stage temperature control strategy was established. In the first 6 days, the temperature was maintained at 30 °C to obtain the maximal cell growth rate; subsequently, 25 °C was used to gain a high ECB formation rate. On the basis of temperature control, the ECB productivity was increased to 143.3 mg/(L day), which was a 1.3-fold improvement compared with the optimal constant-temperature cultivations. The influences of fed-batch cultures were further investigated. A maximal ECB productivity of 170.8 mg/(L day) was obtained through a three-stage mannitol pulse-feeding strategy, which was another 1.2-fold improvement than that of the batch fermentation. This is the first report of the use of a two-stage temperature control fed-batch strategy in ECB fermentation. This strategy was simple and economical to operate and may provide new guidance for the industrial-scale production of ECB.
KeywordsAspergillus nidulans Echinocandin B Two-stage temperature control Fed-batch culture
This work was financially supported by National Natural Science Foundation of China (Grant number 21406205) and Natural Sciences Fund of Zhejiang Province (Grant number Y17C050005).
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Conflict of interest
The authors declare that they have no conflict of interest in the publication.
- Bills GF, Platas G, Fillola A, Jiménez MR, Collado J, Vicente F, Martín J, González A, Bur-Zimmermann J, Tormo JR, Peláez F (2008) Enhancement of antibiotic and secondary metabolite detection from filamentous fungi by growth on nutritional arrays. J Appl Microbiol 104(6):1644–1658CrossRefGoogle Scholar
- Huttel W, Youssar L, Gruning BA, Gunther S, Hugentobler KG (2016) Echinocandin B biosynthesis: a biosynthetic cluster from Aspergillus nidulans NRRL 8112 and reassembly of the subclusters Ecd and Hty from Aspergillus pachycristatus NRRL 11440 reveals a single coherent gene cluster. BMC Genom 17:570CrossRefGoogle Scholar
- Zhen Z, Rui L, Yu G, Wei R, Shen Q (2013) Enhancement of lipopeptides production in a two-temperature-stage process under SSF conditions and its bioprocess in the fermenter. Bioresour Technol 127(1):209–215Google Scholar
- Zhou B, Kang JJ (2012) A temperature-shift strategy in batch Monascus yellow pigments fermentation. Adv Mater Res 550–553:1327–1335Google Scholar