Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications

Whitford, Christopher M.; Dymek, Saskia; Kerkhoff, Denise; März, Camilla; Schmidt, Olga; Edich, Maximilian; Droste, Julian; Pucker, Boas; Rückert, Christian; Kalinowski, Jörn

Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications

Whitford CM, Dymek S, Kerkhoff D, März C, Schmidt O, Edich M, Droste J, Pucker B, Rückert C, Kalinowski J (2018)
Journal of Biological Engineering 12(1): 13.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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Whitford_2018.pdf 2.04 MB

DOI

https://doi.org/10.1186/s13036-018-0105-8

URN

urn:nbn:de:0070-pub-29302968

Autor*in

Whitford, Christopher M.; Dymek, Saskia; Kerkhoff, Denise^UniBi ; März, Camilla; Schmidt, Olga; Edich, Maximilian; Droste, Julian^UniBi; Pucker, Boas^UniBi ; Rückert, Christian^UniBi ; Kalinowski, Jörn^UniBi

Einrichtung

Centrum für Biotechnologie > Arbeitsgruppe B. Weisshaar
Fakultät für Biologie > Genetik und Genomik der Pflanzen
Centrum für Biotechnologie > Arbeitsgruppe J. Kalinowski
Technische Fakultät > Int. Graduiertenkolleg DiDy (GRK 1906)

Erscheinungsjahr

2018

Zeitschriftentitel

Journal of Biological Engineering

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12

Ausgabe

1

Art.-Nr.

13

Urheberrecht / Lizenzen

Creative Commons Namensnennung 3.0 Unported (CC BY 3.0)

ISSN

1754-1611

eISSN

1754-1611

Page URI

https://pub.uni-bielefeld.de/record/2930296

Zitieren

Whitford CM, Dymek S, Kerkhoff D, et al. Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications. Journal of Biological Engineering. 2018;12(1): 13.

Whitford, C. M., Dymek, S., Kerkhoff, D., März, C., Schmidt, O., Edich, M., Droste, J., et al. (2018). Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications. Journal of Biological Engineering, 12(1), 13. https://doi.org/10.1186/s13036-018-0105-8

Whitford, Christopher M., Dymek, Saskia, Kerkhoff, Denise, März, Camilla, Schmidt, Olga, Edich, Maximilian, Droste, Julian, Pucker, Boas, Rückert, Christian, and Kalinowski, Jörn. 2018. “Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications”. Journal of Biological Engineering 12 (1): 13.

Whitford, C. M., Dymek, S., Kerkhoff, D., März, C., Schmidt, O., Edich, M., Droste, J., Pucker, B., Rückert, C., and Kalinowski, J. (2018). Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications. Journal of Biological Engineering 12:13.

Whitford, C.M., et al., 2018. Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications. Journal of Biological Engineering, 12(1): 13.

C.M. Whitford, et al., “Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications”, Journal of Biological Engineering, vol. 12, 2018, : 13.

Whitford, C.M., Dymek, S., Kerkhoff, D., März, C., Schmidt, O., Edich, M., Droste, J., Pucker, B., Rückert, C., Kalinowski, J.: Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications. Journal of Biological Engineering. 12, : 13 (2018).

Whitford, Christopher M., Dymek, Saskia, Kerkhoff, Denise, März, Camilla, Schmidt, Olga, Edich, Maximilian, Droste, Julian, Pucker, Boas, Rückert, Christian, and Kalinowski, Jörn. “Auxotrophy to Xeno-DNA: an exploration of combinatorial mechanisms for a high-fidelity biosafety system for synthetic biology applications”. Journal of Biological Engineering 12.1 (2018): 13.

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