Reprogramming the endogenous type I CRISPR‐Cas system for simultaneous gene regulation and editing in Haloarcula hispanica

Autor: Kaixin Du, Luyao Gong, Ming Li, Haiying Yu, Hua Xiang
Jazyk: angličtina
Rok vydání: 2022
Předmět:
Zdroj: mLife, Vol 1, Iss 1, Pp 40-50 (2022)
Druh dokumentu: article
ISSN: 2770-100X
DOI: 10.1002/mlf2.12010
Popis: Abstract The type I system is the most widely distributed CRISPR‐Cas system identified so far. Recently, we have revealed the natural reprogramming of the type I CRISPR effector for gene regulation with a crRNA‐resembling RNA in halophilic archaea. Here, we conducted a comprehensive study of the impact of redesigned crRNAs with different spacer lengths on gene regulation with the native type I‐B CRISPR system in Haloarcula hispanica. When the spacer targeting the chromosomal gene was shortened from 36 to 28 bp, transformation efficiencies of the spacer‐encoding plasmids were improved by over three orders of magnitude, indicating a significant loss of interference. However, by conducting whole‐genome sequencing and measuring the growth curves of the hosts, we still detected DNA cleavage and its influence on cell growth. Intriguingly, when the spacer was shortened to 24 bp, the transcription of the target gene was downregulated to 10.80%, while both interference and primed adaptation disappeared. By modifying the lengths of the spacers, the expression of the target gene could be suppressed to varying degrees. Significantly, by designing crRNAs with different spacer lengths and targeting different genes, we achieved simultaneous gene editing (cdc6E) and gene regulation (crtB) for the first time with the endogenous type I CRISPR‐Cas system.
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