Identification and Validation of Four Novel Promoters for Gene Engineering with Broad Suitability across Species

The transcriptional capacities of target genes are strongly influenced by promoters, whereas few studies have focused on the development of robust, high-performance and cross-species promoters for wide application in different bacteria. In this work, four novel promoters (P , P 1, P 2, and P 3) were...

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Veröffentlicht in:Journal of microbiology and biotechnology 2021, 31(8), , pp.1154-1162
Hauptverfasser: Wang, Cai-Yun, Liu, Li-Cheng, Wu, Ying-Cai, Zhang, Yi-Xuan
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Sprache:eng
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Zusammenfassung:The transcriptional capacities of target genes are strongly influenced by promoters, whereas few studies have focused on the development of robust, high-performance and cross-species promoters for wide application in different bacteria. In this work, four novel promoters (P , P 1, P 2, and P 3) were predicted from and their inconsistency in the -10 and -35 region nucleotide sequences indicated they were different promoters. Their activities were evaluated by using green fluorescent protein ( ) as a reporter in different species of bacteria, including SPU B805, KT2440, PD1222, and , due to their importance in metabolic engineering. Our results showed that the four promoters had different activities, with P 1 showing the strongest activity in almost all of the experimental bacteria. By comparison with the commonly used promoters of ( , lac, lacUV5), (Psdh, Psndh) and KT2440 (JE111411), the four promoters showed significant differences due to only 12.62% nucleotide similarities, and relatively higher ability in regulating target gene expression. Further validation experiments confirmed their ability in initiating the target cassette because of the shape changes under the promoter regulation. The overexpression of sorbose dehydrogenase and cytochrome by P 1 and P 2 resulted in a 22.75% enhancement of 2-KGA yield, indicating their potential for practical application in metabolic engineering. This study demonstrates an example of applying bioinformatics to find new biological components for gene operation and provides four novel promoters with broad suitability, which enriches the usable range of promoters to realize accurate regulation in different genetic backgrounds.
ISSN:1017-7825
1738-8872
DOI:10.4014/jmb.2103.03049