AI Article Synopsis
- Designing effective expression cassettes is crucial in gene engineering, focusing on creating synthetic gene switches to manage target genes based on various stimuli.
- The development of synthetic promoters involves understanding natural promoter structures and rearranging their cis elements, which can significantly enhance applications in plant biotechnology.
- The review outlines methods for constructing synthetic promoters and evaluates the roles of bioinformatics and biochemical synthesis in achieving precise gene regulation.
Article Abstract
Designing the expression cassettes with desired properties remains the most important consideration of gene engineering technology. One of the challenges for predictive gene expression is the modeling of synthetic gene switches to regulate one or more target genes which would directly respond to specific chemical, environmental, and physiological stimuli. Assessment of natural promoter, high-throughput sequencing, and modern biotech inventory aided in deciphering the structure of cis elements and molding the native cis elements into desired synthetic promoter. Synthetic promoters which are molded by rearrangement of cis motifs can greatly benefit plant biotechnology applications. This review gives a glimpse of the manual in vivo gene regulation through synthetic promoters. It summarizes the integrative design strategy of synthetic promoters and enumerates five approaches for constructing synthetic promoters. Insights into the pattern of cis regulatory elements in the pursuit of desirable "gene switches" to date has also been reevaluated. Joint strategies of bioinformatics modeling and randomized biochemical synthesis are addressed in an effort to construct synthetic promoters for intricate gene regulation.
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| http://dx.doi.org/10.1007/s12033-018-0089-0 | DOI Listing |
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