Frontiers in Bioengineering and Biotechnology (Jan 2022)

CRISPR Interference Modules as Low-Burden Logic Inverters in Synthetic Circuits

  • Massimo Bellato,
  • Massimo Bellato,
  • Massimo Bellato,
  • Angelica Frusteri Chiacchiera,
  • Angelica Frusteri Chiacchiera,
  • Elia Salibi,
  • Elia Salibi,
  • Michela Casanova,
  • Michela Casanova,
  • Davide De Marchi,
  • Davide De Marchi,
  • Ignazio Castagliuolo,
  • Maria Gabriella Cusella De Angelis,
  • Maria Gabriella Cusella De Angelis,
  • Paolo Magni,
  • Paolo Magni,
  • Lorenzo Pasotti,
  • Lorenzo Pasotti

DOI
https://doi.org/10.3389/fbioe.2021.743950
Journal volume & issue
Vol. 9

Abstract

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CRISPR and CRISPRi systems have revolutionized our biological engineering capabilities by enabling the editing and regulation of virtually any gene, via customization of single guide RNA (sgRNA) sequences. CRISPRi modules can work as programmable logic inverters, in which the dCas9-sgRNA complex represses a target transcriptional unit. They have been successfully used in bacterial synthetic biology to engineer information processing tasks, as an alternative to the traditionally adopted transcriptional regulators. In this work, we investigated and modulated the transfer function of several model systems with specific focus on the cell load caused by the CRISPRi logic inverters. First, an optimal expression cassette for dCas9 was rationally designed to meet the low-burden high-repression trade-off. Then, a circuit collection was studied at varying levels of dCas9 and sgRNAs targeting three different promoters from the popular tet, lac and lux systems, placed at different DNA copy numbers. The CRISPRi NOT gates showed low-burden properties that were exploited to fix a high resource-consuming circuit previously exhibiting a non-functional input-output characteristic, and were also adopted to upgrade a transcriptional regulator-based NOT gate into a 2-input NOR gate. The obtained data demonstrate that CRISPRi-based modules can effectively act as low-burden components in different synthetic circuits for information processing.

Keywords