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Multi-objective design of synthetic biological circuits

机译：合成生物电路的多目标设计

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Computational methods enable the design of synthetic biological circuits demon-strating a specific dynamic behavior. Current methods are based on the assembly of parts characterized in different contexts, which often fail to operate as predicted when combined. Here we introduce a circuit design method that compensates for parts uncertainty by identifying circuit topologies whose behavior is robust to variations in parameters. Our heuristic topological filtering approach efficiently yields robust circuit designs in a Bayesian framework, and enables to reliably assess trade-offs between performance, robustness, and experimental feasibility, thus increasing the probability of success of circuit implementation.

机译：计算方法使得综合生物电路的设计是恶魔串的特定动态行为。当前方法基于在不同上下文中表征的部件的组装，该部件通常由于组合时预测而无法操作。在这里，我们介绍了一种电路设计方法，可以通过识别行为对参数变化的变化稳健的电路拓扑来补偿零件的不确定性。我们的启发式拓扑过滤方法有效地在贝叶斯框架中有效地产生了强大的电路设计，并且能够可靠地评估性能，鲁棒性和实验性可行性之间的权衡，从而增加了电路实现成功的概率。

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来源
《IFAC World Congress》|2018年|9361-10026p|共6页
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作者
Claude Lormeau; Mikolaj Rybinski; Jorg Stelling;
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原文格式 PDF
正文语种
中图分类 TP273-53;
关键词
Synthetic biology; Biocybernetics; Multiobjective optimisations; Computer-aided circuit design; Robustness;

机译：合成生物学;生物鸡虫;多目标优化;计算机辅助电路设计;鲁棒性;

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1. Multi-objective design of synthetic biological circuits * * This publication is supported by the Swiss National Science Foundation as part of the NCCR Molecular Systems Engineering. [J] . Claude Lormeau, Miko?aj Rybiński, J?rg Stelling IFAC PapersOnLine . 2017,第1期

机译：合成生物电路的多目标设计 * * 此出版物由瑞士国家科学基金会作为NCCR Molecular的一部分得到支持系统工程。
2. Synthetic biology: understanding biological design from synthetic circuits. [J] . Mukherji S, van Oudenaarden A Nature reviews. Genetics . 2009,第12期

机译：合成生物学：从合成电路中了解生物学设计。
3. Rule-Based Design of Synthetic Gene Circuits with Standard Biological Parts Using GenoCAD [J] . Li Panpan, Shi Pei, Lv Qi, Journal of computational and theoretical nanoscience . 2017,第10期

机译：基于规则的基于基于基因电路与基于标准生物零件的合成基因电路
4. Multi-objective design of synthetic biological circuits [C] . Claude Lormeau, Mikolaj Rybinski, Jorg Stelling IFAC World Congress . 2018

机译：合成生物电路的多目标设计
5. Synthetic Gene Circuits for Self-Regulating and Temporal Delivery of Anti-Inflammatory Biologic Drugs in Engineered Tissues [D] . Pferdehirt, Lara. 2021

机译：用于自我调节和颞型抗炎生物药物在工程组织中的综合基因电路
6. Synthetic biology: Understanding biological design from synthetic circuits [O] . Shankar Mukherji, Alexander van Oudenaarden -1

机译：合成生物学：从合成电路了解生物设计
7. Parameter identification in synthetic biological circuits using multi-objective optimization * *This work is partially supported by Spanish government and European Union (FEDER-CICYT DPI2011-28112-C04-01, and DPI2014-55276-C5-1). Y.B. thanks grant FPI/2013-3242 of Universitat Politècnica de València and Becas Iberoamérica of Santander Group, Spain 2015. G.R.M. thanks the partial support provided by the postdoctoral fellowship BJT-304804/2014-2 from the National Council of Scientific and Technologic Development of Brazil. A.V. thanks the Max Planck Society, the CSBD and the MPI-CBG. We are grateful to Dr. C.Baüerl and Dr. D. Provencio at the SB2CLab for their help in plasmid construction and getting experimental data. Also to Dr. V. Monedero at IATA-CSIC for allowing us to use the POLARstar plate reader at his lab. [O] . Y. Boada, A. Vignoni, G. Reynoso-Meza, 2016

机译：使用多目标优化的合成生物电路中的参数识别* *这项工作由西班牙政府和欧盟（Feder-icicyT DPI2011-28112-C04-01和DPI2014-55276-C5-1）部分支持这项工作。 Y.B.谢谢Grant FPI / 2013-3242大学Politècnicadevalència和贝斯坦德集团的伊比利纳，西班牙西班牙2015年。感谢博士后的博士后奖学金提供的部分支持BJT-304804/201-2来自国家科技委员会的巴西理事会。 A.v.感谢最大普朗克社会，CSBD和MPI-CBG。我们感谢C.baüerl博士和D.普罗夫博士在SB2Clab上进行SB2Clab，掌握质粒建设和实验数据。也是IATA-CSIC的V.Monedero博士，允许我们在他的实验室中使用Polarstar Blue Reader。

Multi-objective design of synthetic biological circuits

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