期刊
MICROBIAL BIOTECHNOLOGY
卷 15, 期 8, 页码 2250-2265出版社
WILEY
DOI: 10.1111/1751-7915.14063
关键词
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资金
- SETH (MCIN/AEI/FEDER) Project of the Spanish Ministry of Science and Innovation [RTI2018-095584-B-C42]
- SYCOLIM (MCIN/AEI/EU) Project of the Spanish Ministry of Science and Innovation [ERA-COBIOTECH 2018 - PCI2019-111859-2]
- MADONNA Contract of the European Union [H2020-FET-OPEN-RIA-2017-1-766975]
- SYNBIO4FLAV Contract of the European Union [H2020-NMBP-TR-IND/H2020-NMBP-BIO-2018-814650]
- MIX-UP Contract of the European Union [MIX-UP H2020-BIO-CN-2019-870294]
- InGEMICS-CM Project of the Comunidad de Madrid -European Structural and Investment Funds -(FSE, FECER) [S2017/BMD-3691]
- BIOSINT-CM Project of the Comunidad de Madrid -European Structural and Investment Funds -(FSE, FECER) [Y2020/TCS-6555]
- Novo Nordisk Foundation [NNF20CC0035580, NNF10CC1016517, NNF18OC0034818, NNF21OC0067996]
- Danish Council for Independent Research (SWEET, DFF) [8021-00039B]
- European Union [814418]
The potential of regulatory nodes from different bacteria as parts for expression cargoes was examined. The performance of these expression devices, assembled within the same plasmid backbone, was analyzed in Escherichia coli. The study revealed differences in their capacity, expression noise, inducibility, and ON/OFF ratios due to the arrangement of functional DNA segments. This research resulted in a collection of formatted expression cargoes without cross talk, providing choices for users and improving interoperability of specific constructs.
The potential of LacI/P-trc, XylS/P-m, AlkS/P-alkB, CprK/P-DB3 and ChnR/P-chnB regulatory nodes, recruited from both Gram-negative and Gram-positive bacteria, as the source of parts for formatting expression cargoes following the Standard European Vector Architecture (SEVA) has been examined. The five expression devices, which cover most known regulatory configurations in bacteria were assembled within exactly the same plasmid backbone and bearing the different functional segments arrayed in an invariable DNA scaffold. Their performance was then analysed in an Escherichia coli strain of reference through the readout of a fluorescence reporter gene that contained strictly identical translation signal elements. This approach allowed us to describe and compare the cognate expression systems with quantitative detail. The constructs under scrutiny diverged considerably in their capacity, expression noise, inducibility and ON/OFF ratios. Inspection of such a variance exposed the different constraints that rule the optimal arrangement of functional DNA segments in each case. The data highlighted also the ease of standardizing inducer-responsive devices subject to transcriptional activation as compared to counterparts based on repressors. The study resulted in a defined collection of formatted expression cargoes lacking any cross talk while offering a panoply of choices to potential users and help interoperability of the specific constructs.
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