Cell-free biosynthesis meets dynamic optimization and control: a fed-batch framework

被引:0
|
作者
Espinel-Rios, Sebastian [1 ,2 ]
Huber, Nicolas [2 ]
Alcala-Orozco, Edgar Alberto [3 ]
Morabito, Bruno [1 ]
Rexer, Thomas F. T. [3 ]
Reichl, Udo [3 ]
Klamt, Steffen [2 ]
Findeisen, Rolf [4 ]
机构
[1] Otto von Guericke Univ, Lab Syst Theory & Automat Control, Magdeburg, Germany
[2] Max Planck Inst Dynam Complex Tech Syst, Anal & Redesign Biol Networks, Magdeburg, Germany
[3] Max Planck Inst Dynam Complex Tech Syst, Bioproc Engn, Magdeburg, Germany
[4] Tech Univ Darmstadt, Control & Cyber Phys Syst Lab, Darmstadt, Germany
来源
IFAC PAPERSONLINE | 2022年 / 55卷 / 23期
关键词
Cell-free; fed-batch; optimization; control; state estimation; UDP-GlcNAc; CHEMICALS;
D O I
10.1016/j.ifacol.2023.01.021
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
Cell-free biosynthesis uses the machinery of cells, such as the metabolic reactions, to carry out conversion processes in vitro. This can be more beneficial than in vivo approaches like fermentations. Some advantages of these synthetic biology processes include higher product yields, rates and titers, and more flexibility in pathway design. Cell-free biosynthesis is still in early stages and, unlike in vivo production, there are very few examples of model-based optimization. Moreover, we encounter static optimizations in most cases, neglecting the dynamic nature of the processes. We present an optimal control framework to maximize the efficiency of cell-free biosynthesis. We focus on fed-batch setups as they allow enhancing the reaction rates via the feeding, extending production processes for longer times, and minimizing the potential negative effects of enzyme kinetics with substrate inhibition. Our framework can in principle handle several cost functions and exploit both static and dynamic degrees of freedom. An aspect that can hinder model-based optimization is model uncertainty, which can arise due to uncertain parameters, oversimplified model assumptions or unknown reaction mechanisms. To counteract this, we propose the use of model predictive control during the process operation. In addition, we outline the use of moving horizon estimation as an observer in the case of unmeasured states. We consider the de novo cell-free synthesis of uridine diphosphate-N-acetylglucosamine as a biomedical relevant case study, where we were able to maximize the volumetric productivity in simulations, and indirectly also the titer and enzyme efficiency use. Copyright (c) 2022 The Authors. This is an open access article under the CC BY-NC-ND license (https://creativecommons.org/ licenses/by-nc-nd/4.0/)
引用
收藏
页码:92 / 97
页数:6
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