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  1. ; (, Current opinion in microbiology)
    Takano, Eriko; Breitling, Rainer (Ed.)
    Synthetic biology is a field at the intersection of biology and engineering. Inspired by engineering principles, researchers use defined parts to build functionally defined biological circuits. Genetic design automation allows scientists to design, model, and analyze their genetic circuits in silico before building them in the lab, saving time and resources in the process. Establishing synthetic biology’s future is dependent on genetic design automation, since the computational approach opens the field to a broad, interdisciplinary community. However, challenges with part libraries, standards, and software tools are currently stalling progress in the field. This review first covers re- cent advancements in genetic design automation, followed by an assessment of the challenges ahead, and a proposed automated genetic design workflow for the future. 
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