TY - JOUR T1 - Synthetic auxotrophy remains stable after continuous evolution and in co-culture with mammalian cells JF - bioRxiv DO - 10.1101/2020.09.27.315804 SP - 2020.09.27.315804 AU - Aditya M. Kunjapur AU - Michael G. Napolitano AU - Eriona Hysolli AU - Karen Noguera AU - Evan M. Appleton AU - Max G. Schubert AU - Michaela A. Jones AU - Siddharth Iyer AU - Daniel J. Mandell AU - George M. Church Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/09/28/2020.09.27.315804.abstract N2 - Understanding the evolutionary stability and possible context-dependence of biological containment techniques is critical as engineered microbes are increasingly under consideration for applications beyond biomanufacturing. While batch cultures of synthetic auxotrophic Escherichia coli previously exhibited undetectable escape throughout 14 days of monitoring, the long-term effectiveness of synthetic auxotrophy is unknown. Here, we report automated continuous evolution of a synthetic auxotroph using custom chemostats that supply a decreasing concentration of essential biphenylalanine (BipA). After 100 days of evolution in three separate trials, populations exhibit no observable escape and are capable of normal growth rates at 10-fold lower BipA concentration than the ancestral synthetic auxotroph. Allelic reconstruction of three proteins implicated in small molecule transport reveals their contribution to increased fitness at low BipA concentrations. Mutations do not appear in orthogonal translation machinery nor in synthetic auxotrophic markers. Based on its evolutionary stability, we introduce the progenitor synthetic auxotroph directly to mammalian cell culture. We observe containment of bacteria without detrimental effects on HEK293T cells. Overall, our findings reveal that synthetic auxotrophy is effective on timescales and in contexts that enable diverse applications.One Sentence Summary To ascertain whether life inevitably finds a way, we continuously evolve an Escherichia coli strain that was not able to escape from engineered biocontainment before, and we find that it does not escape even after 100 days of evolution, nor does it escape when added to mammalian cell culture.Competing Interest StatementThe authors declare the following competing financial interest(s): GMC has related financial interests in 64-x, EnEvolv, and GRO Biosciences. For a complete list of GMCs financial interests, please visit arep.med.harvard.edu/gmc/tech.html. ER -