A universal approach to gene expression engineering

Lale R, Tietze L, Fages-Lartaud M, Nesje J, Onsager I, Engelhardt K, Wong CFA, Akan M, Hummel N, Kalinowski J, Rückert C, et al. (2022)
Synthetic Biology 7(1): ysac017.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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DOI
Autor*in
Lale, Rahmi; Tietze, Lisa; Fages-Lartaud, Maxime; Nesje, Jenny; Onsager, Ingerid; Engelhardt, Kerstin; Wong, Che Fai Alex; Akan, Madina; Hummel, Niklas; Kalinowski, JörnUniBi; Rückert, ChristianUniBi ; Hohmann-Marriott, Martin Frank
Alle
Einrichtung
Centrum für Biotechnologie > Technologieplattformen > Technologieplattform Genomik
Center of Excellence - Cognitive Interaction Technology CITEC > Kognitronik & Sensorik
Abstract / Bemerkung
In this study, we provide a universal approach to Gene Expression Engineering (GeneEE) for creating artificial expression systems. GeneEE leads to the generation of artificial 5 ' regulatory sequences (ARES) consisting of promoters and 5 ' untranslated regions. The ARES lead to the successful recruitment of RNA polymerase, related sigma factors and ribosomal proteins that result in a wide range of expression levels. We also demonstrate that by engaging native transcription regulators, GeneEE can be used to generate inducible promoters. To showcase the universality of the approach, we demonstrate that 200-nucleotide (nt)-long DNA with random composition can be used to generate functional expression systems in six bacterial species, Escherichia coli, Pseudomonas putida, Corynebacterium glutamicum, Thermus thermophilus, Streptomyces albus and Streptomyces lividans, and the eukaryote yeast Saccharomyces cerevisiae.
Stichworte
artificial promoters; 5 ' untranslated region; transcription; translation
Erscheinungsjahr
2022
Zeitschriftentitel
Synthetic Biology
Band
7
Ausgabe
1
Art.-Nr.
ysac017
eISSN
2397-7000
Page URI
https://pub.uni-bielefeld.de/record/2966361

Zitieren

Lale R, Tietze L, Fages-Lartaud M, et al. A universal approach to gene expression engineering. Synthetic Biology . 2022;7(1): ysac017.
Lale, R., Tietze, L., Fages-Lartaud, M., Nesje, J., Onsager, I., Engelhardt, K., Wong, C. F. A., et al. (2022). A universal approach to gene expression engineering. Synthetic Biology , 7(1), ysac017. https://doi.org/10.1093/synbio/ysac017
Lale, Rahmi, Tietze, Lisa, Fages-Lartaud, Maxime, Nesje, Jenny, Onsager, Ingerid, Engelhardt, Kerstin, Wong, Che Fai Alex, et al. 2022. “A universal approach to gene expression engineering”. Synthetic Biology 7 (1): ysac017.
Lale, R., Tietze, L., Fages-Lartaud, M., Nesje, J., Onsager, I., Engelhardt, K., Wong, C. F. A., Akan, M., Hummel, N., Kalinowski, J., et al. (2022). A universal approach to gene expression engineering. Synthetic Biology 7:ysac017.
Lale, R., et al., 2022. A universal approach to gene expression engineering. Synthetic Biology , 7(1): ysac017.
R. Lale, et al., “A universal approach to gene expression engineering”, Synthetic Biology , vol. 7, 2022, : ysac017.
Lale, R., Tietze, L., Fages-Lartaud, M., Nesje, J., Onsager, I., Engelhardt, K., Wong, C.F.A., Akan, M., Hummel, N., Kalinowski, J., Rückert, C., Hohmann-Marriott, M.F.: A universal approach to gene expression engineering. Synthetic Biology . 7, : ysac017 (2022).
Lale, Rahmi, Tietze, Lisa, Fages-Lartaud, Maxime, Nesje, Jenny, Onsager, Ingerid, Engelhardt, Kerstin, Wong, Che Fai Alex, Akan, Madina, Hummel, Niklas, Kalinowski, Jörn, Rückert, Christian, and Hohmann-Marriott, Martin Frank. “A universal approach to gene expression engineering”. Synthetic Biology 7.1 (2022): ysac017.
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