Perturbation of gene expression using RNA interference (RNAi) or CRISPR interference (CRISPRi) is a useful strategy to explore the function of essential genes. In the archaeon Haloferax volcanii, the CRISPR-Cas system has been adapted as a CRISPRi tool to silence the expression of specific genes. We developed a laboratory class (LC) to conceptualize gene silencing through inactivation of the H. volcanii LonB protease gene, a negative regulator of carotenoid pigments biosynthesis, using CRISPRi. This LC has been successfully applied in the Biology and Biochemistry of Microorganisms course for undergraduate students of Biology in 2022 and 2023. The following objectives were proposed: (a) generate H. volcanii mutant strains with reduced expression of the lonB gene using CRISPRi; (b) examine the effect of lonB gene silencing on cell pigmentation and growth rate; (c) assess lonB gene repression by Western blotting (WB). This LC allows students to obtain and screen CRISPRi silenced-mutants by means of simple procedures using a non-pathogenic organism as well as handle basic microbiology, biochemistry and molecular biology protocols. Additionally, the LC fosters social actions through collaborative work (experimental work), the interpretation and discussion of data and the ability to communicate outcomes orally and in a written format (scientific report).
Keywords: CRISPRi technology; LonB protease gene; archaea; carotenoids; laboratory class; transcription repression.
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