2016
DOI: 10.1042/bst20160042
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Synthetic promoter design for new microbial chassis

Abstract: The judicious choice of promoter to drive gene expression remains one of the most important considerations for synthetic biology applications. Constitutive promoter sequences isolated from nature are often used in laboratory settings or small-scale commercial production streams, but unconventional microbial chassis for new synthetic biology applications require well-characterized, robust and orthogonal promoters. This review provides an overview of the opportunities and challenges for synthetic promoter discov… Show more

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Cited by 50 publications
(55 citation statements)
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References 79 publications
(107 reference statements)
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“…By splicing together artificial pieces of promoter elements, novel promoters that do not exist in nature can be constructed rapidly (Blazeck and Alper, 2013). These promoters have the potential to be independent of the endogenous transcription regulation and function more robustly than those naturally derived ones (Gilman and Love, 2016;Portela et al, 2017). Some synthetic promoters such as the J231 family in the Registry of Standard Biological Parts have gained wide application in gene circuit construction (Qi et al, 2012), tool development (Jervis et al, 2019), chemical production (Meng et al, 2016;Choi et al, 2017;Zhou et al, 2017) and the characterization of biological systems (Pasotti et al, 2012).…”
Section: Introductionmentioning
confidence: 99%
“…By splicing together artificial pieces of promoter elements, novel promoters that do not exist in nature can be constructed rapidly (Blazeck and Alper, 2013). These promoters have the potential to be independent of the endogenous transcription regulation and function more robustly than those naturally derived ones (Gilman and Love, 2016;Portela et al, 2017). Some synthetic promoters such as the J231 family in the Registry of Standard Biological Parts have gained wide application in gene circuit construction (Qi et al, 2012), tool development (Jervis et al, 2019), chemical production (Meng et al, 2016;Choi et al, 2017;Zhou et al, 2017) and the characterization of biological systems (Pasotti et al, 2012).…”
Section: Introductionmentioning
confidence: 99%
“…As highly active promoters have been created for use in all bioproduction hosts, a component with the required functionality can be simply selected by screening a small panel (e.g., <10) of previously characterized synthetic constructs (Brown & James, 2015;Gilman & Love, 2016;Redden, Morse, & Alper, 2014). As highly active promoters have been created for use in all bioproduction hosts, a component with the required functionality can be simply selected by screening a small panel (e.g., <10) of previously characterized synthetic constructs (Brown & James, 2015;Gilman & Love, 2016;Redden, Morse, & Alper, 2014).…”
Section: Gene Transcriptionmentioning
confidence: 99%
“…Context-specific maximization of recombinant gene transcription requires identification of an appropriate promoter part. As highly active promoters have been created for use in all bioproduction hosts, a component with the required functionality can be simply selected by screening a small panel (e.g., <10) of previously characterized synthetic constructs (Brown & James, 2015;Gilman & Love, 2016;Redden, Morse, & Alper, 2014). Alternatively, a "gold standard" part can be used directly if it has been specifically designed or shown to maximize transcriptional output in diverse expression conditions.…”
Section: Gene Transcriptionmentioning
confidence: 99%
“…Although natural promoters have been widely used in relatively steady laboratory application, the number of functional promoters, however, is in such a low level, considering the large potential space of base combinations. In recent years, researchers increasingly turned to extract promoter features [1][2][3] and constructed libraries of synthetic promoter sequences for specific engineering aims [4][5][6] . Many molecular approaches to generate of synthetic promoter libraries has been applied, such as methods based on mutagenesis [6][7][8] , integrating the shorter functional parts [9][10][11] and combination of biological motifs 12,13 , etc.…”
Section: Introductionmentioning
confidence: 99%