Abstract
The large-scale fermentation of Pichia pastoris for recombinant protein production would be time consuming and produce a large amount of waste yeast. Here we introduce a novel semi-continuous fermentation process for P. pastoris GS115 that can separate vitality cells from broth and recycle the cells to produce high-secretory recombinant pectate lyase. It is based on differences in cell sedimentation coefficients with the formation of salt bridges between metal ions and various cell states. Compared to batch-fed cultivation and general semi-continuous culture, the novel process has significant advantages, such as consuming fewer resources, taking less time, and producing less waste yeast. Sedimentation with the addition of Fe3+ metal ions consumed 14.8 ± 0.0% glycerol, 97.8 ± 1.3% methanol, 55.0 ± 0.9 inorganic salts, 81.5 ± 0.0% time cost, and 77.0 ± 0.1% waste yeast versus batch-fed cultivation to produce an equal amount of protein; in addition, the cost of solid–liquid separation was lower for cells in the collected fermentation broth. The process is economically and environmentally efficient for producing recombinant proteins.
Highlights
Pichia pastoris has been used to yield various recombinant proteins
Other great advantages of P. pastoris are the production of high levels of heterologous proteins and the fact that it grows in minimal medium at high density with low levels of endogenous protein secretion (Cereghino and Cregg, 2000; Zhan et al, 2014)
Greener, and more energy-efficient cultivation process for recombinant protein production from Pichia pastoris
Summary
Pichia pastoris has been used to yield various recombinant proteins. According to the web platform www.pichia.com, more than 5,000 different proteins have been produced using this system (Schwarzhans et al, 2017). Semi-continuous cultivation (SCC) entails periodic removal of the cultivation fraction and replacement with an equal volume of fresh cultivation medium; each dilution returns the cultivation to approximately the same cell density after the previous one (Henley, 2019) This process dramatically dilutes the cell population, reduces the number of producers, and requires additional resources to be devoted to the growth of cells. Three kinds of semi-continuous cultivation were performed, including general semi-continuous cultivation (SCC), natural sedimentation (about 24 h) to recycle cells for semi-continuous cultivation (NS24), and semi-continuous cultivation with metal ions (Ca2+ or Fe3+; CCa and CFe, respectively) We successfully applied these methods to produce proteins with active P. pastoris cells from broth and achieved stable, optimal operation for more than month. Mean value of fluorescence intensity (X-mean) of the sample could be calculated by software FlowJo v10
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