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CRISPR-based gene expression control for synthetic gene circuits

Javier Santos‐Moreno, Yolanda Schaerli

2020Biochemical Society Transactions58 citationsDOIOpen Access PDF

Abstract

Synthetic gene circuits allow us to govern cell behavior in a programmable manner, which is central to almost any application aiming to harness engineered living cells for user-defined tasks. Transcription factors (TFs) constitute the 'classic' tool for synthetic circuit construction but some of their inherent constraints, such as insufficient modularity, orthogonality and programmability, limit progress in such forward-engineering endeavors. Here we review how CRISPR (clustered regularly interspaced short palindromic repeats) technology offers new and powerful possibilities for synthetic circuit design. CRISPR systems offer superior characteristics over TFs in many aspects relevant to a modular, predictable and standardized circuit design. Thus, the choice of CRISPR technology as a framework for synthetic circuit design constitutes a valid alternative to complement or replace TFs in synthetic circuits and promises the realization of more ambitious designs.

Topics & Concepts

CRISPRSynthetic biologyModular designComputer scienceOrthogonalityModularity (biology)Electronic circuitComputational biologyComputer architectureBiologyGeneEngineeringGeneticsMathematicsElectrical engineeringGeometryOperating systemCRISPR and Genetic EngineeringGene Regulatory Network AnalysisPluripotent Stem Cells Research
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