The fed-batch principle for the molecular biology lab: controlled nutrient diets in ready-made media improve production of recombinant proteins in Escherichia coli

Krause, Mirja; Neubauer, Antje; Neubauer, Peter

doi:10.1186/s12934-016-0513-8

Cited by 59 publications

(42 citation statements)

References 106 publications

(128 reference statements)

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“…An initial challenge of these systems was the difficulty in implementation of controlled feeding strategies, as in laboratory bioreactors. However, various solutions have been developed recently to enable fed-batch-like conditions, such as the gradual supply of glucose to the culture through enzyme-based glucose release systems (Krause, Neubauer, & Neubauer, 2016), the application of micropumps for continuous feed supply (Gebhardt, Hortsch, Kaufmann, Arnold, & Weuster-Botz, 2011), model-based intermittent feeding (Sawatzki et al, 2018), and membrane-based substrate release systems (Philip et al, 2018). These improvements bring the screening system closer to actual cultivation conditions, such that a better performing strain can be selected for scale-up.…”

Section: Introductionmentioning

confidence: 99%

A model‐based framework for parallel scale‐down fed‐batch cultivations in mini‐bioreactors for accelerated phenotyping

Anane

García

Haby

et al. 2019

Biotech & Bioengineering

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Concentration gradients that occur in large industrial‐scale bioreactors due to mass transfer limitations have significant effects on process efficiency. Hence, it is desirable to investigate the response of strains to such heterogeneities to reduce the risk of failure during process scale‐up. Although there are various scale‐down techniques to study these effects, scale‐down strategies are rarely applied in the early developmental phases of a bioprocess, as they have not yet been implemented on small‐scale parallel cultivation devices. In this study, we combine mechanistic growth models with a parallel mini‐bioreactor system to create a high‐throughput platform for studying the response of Escherichia coli strains to concentration gradients. As a scaled‐down approach, a model‐based glucose pulse feeding scheme is applied and compared with a continuous feed profile to study the influence of glucose and dissolved oxygen gradients on both cell physiology and incorporation of noncanonical amino acids into recombinant proinsulin. The results show a significant increase in the incorporation of the noncanonical amino acid norvaline in the soluble intracellular extract and in the recombinant product in cultures with glucose/oxygen oscillations. Interestingly, the amount of norvaline depends on the pulse frequency and is negligible with continuous feeding, confirming observations from large‐scale cultivations. Most importantly, the results also show that a larger number of the model parameters are significantly affected by the scale‐down scheme, compared with the reference cultivations. In this example, it was possible to describe the effects of oscillations in a single parallel experiment. The platform offers the opportunity to combine strain screening with scale‐down studies to select the most robust strains for bioprocess scale‐up.

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Section: Introductionmentioning

confidence: 99%

A model‐based framework for parallel scale‐down fed‐batch cultivations in mini‐bioreactors for accelerated phenotyping

Anane

García

Haby

et al. 2019

Biotech & Bioengineering

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“…stress. An improvement of the cultivation conditions can be achieved by enzymatic glucose release mimicking continuous fed-batch conditions [53].…”

Section: Discussionmentioning

confidence: 99%

Accelerated Bioprocess Development of Endopolygalacturonase-Production with<em> Saccharomyces cerevisiae</em> Using Multivariate Prediction in a 48 Mini-Bioreactor Automated Platform

Sawatzki¹,

Hans²,

Narayanan³

et al. 2018

Preprint

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Mini-bioreactor systems enabling automatized operation of numerous parallel cultivations have been used to accelerate and optimize bioprocess development. As implementation of fed-batch conditions, multiple options of process control and sample analysis are possible, these systems represent valuable screening tools for large-scale production. However, the dynamic behavior of cultivations has not yet been considered regarding data evaluation and decision making during high-throughput screening in mini-bioreactors. In this study, the characterization of Saccharomyces cerevisiae AH22 secreting recombinant endopolygalacturonase is performed in 48 parallel fed-batch cultivations regarding 16 experimental conditions. Automated parallel process control, frequent sampling and analysis were implemented. Data-driven multivariate methods were developed to allow for fast, automated decision making as well as online predictive data analysis regarding endopolygalacturonase production. Using dynamic process information, a cultivation with abnormal behavior could be detected by principal component analysis as well as two clusters of similarly behaving cultivations, later classified according to the feeding rate. By decision tree analysis, cultivation conditions leading to an optimal recombinant product formation could be identified automatically. The developed method is easily adaptable and suitable for automatized process development reducing the experimental times and costs.

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“…Необмежена доступність поживних речовин і експоненціальний ріст у системах періодичного типу призводять до утворення побічних метаболітів і підкислення культур. Дезамінування амінокислотних субстратів, яке відбувається при використанні пептонів або дріжджового екстракту, може викликати підвищення рН унаслідок виділення в середовище аміаку [30]. Використання мінімальних середовищ дає змогу вирішити ці проблеми і досягти вищого рівня синтезу [19].…”

Section: отримання цитокінів культивуванням E Coliunclassified

Comparative Characteristics of Biotechnological Approaches to Obtaining Recombinant Human Cytokines in Bacterial Expressing Systems

Natochii¹,

Motronenko²

2019

Innov Biosyst Bioeng

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Background. Cytokines provide a link between cells and play an important role in the innate and adaptive immune response modulation. As mediators, they are active in very small amounts and effect many biological processes: embryonic development, nonspecific and specific immune responses, changes in cognitive function, to name a few. Recombinant microorganisms are commonly used to produce cytokine preparations. Perspectives of therapeutic use of recombinant cytokines make it urgent to create new and improve existing technologies for their biosynthesis, isolation and purification. Objective. The purpose of the paper is analysis and comparison of biotechnological approaches for the production of human recombinant cytokines, based on current literature, and identifying promising ways to improve the efficiency of their production technologies. Methods. The analysis and systematization of modern scientific works devoted to the production of recombinant cytokines with determination of peculiarities of the course of their biosynthesis process and to carry out comparative characteristics of different producers. Results. Most often, to obtain recombinant cytokines, Escherichia coli based expression systems are used, as they are the best-studied to allow high yield of the target product. Their biosynthesis, as a rule, is carried out by a method of periodic fermentation with nutrition, and to the composition of the nutrient medium can be added stimulants of biosynthesis of different origin. Bacterial producers have several disadvantages: the accumulation of the target protein is most often in the form of Taurus inclusions, and the question remains of contamination of such drugs with bacterial endotoxins. To negate these drawbacks, they resort to optimizing the procedures for isolating and purifying recombinant proteins. Conclusions. One of the promising areas of current research on the production of recombinant cytokines is the various technologies for obtaining the target protein in soluble form. However, the complexity of this task lies in the lack of the ability to create a universal method and requires an individual approach, depending on the producer and the final product. Also promising are studies to increase the yield of the target protein by changing the culture conditions and composition of the nutrient medium, eliminating endotoxin infection, and finding alternative bacterial expression systems.

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The fed-batch principle for the molecular biology lab: controlled nutrient diets in ready-made media improve production of recombinant proteins in Escherichia coli

Cited by 59 publications

References 106 publications

A model‐based framework for parallel scale‐down fed‐batch cultivations in mini‐bioreactors for accelerated phenotyping

A model‐based framework for parallel scale‐down fed‐batch cultivations in mini‐bioreactors for accelerated phenotyping

Accelerated Bioprocess Development of Endopolygalacturonase-Production with<em> Saccharomyces cerevisiae</em> Using Multivariate Prediction in a 48 Mini-Bioreactor Automated Platform

Comparative Characteristics of Biotechnological Approaches to Obtaining Recombinant Human Cytokines in Bacterial Expressing Systems

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