Alternative functions of CRISPR-Cas systems in the evolutionary arms race

doi:10.1038/s41579-021-00663-z

Review

. 2022 Jun;20(6):351-364.

doi: 10.1038/s41579-021-00663-z. Epub 2022 Jan 6.

Alternative functions of CRISPR-Cas systems in the evolutionary arms race

Prarthana Mohanraju^{1

2}, Chinmoy Saha³, Peter van Baarlen⁴, Rogier Louwen³, Raymond H J Staals⁵, John van der Oost⁶

Affiliations

¹ Laboratory of Microbiology, Wageningen University & Research, Wageningen, Netherlands.
² Department of Anatomy and Embryology, Leiden University Medical Center, Leiden, Netherlands.
³ Department of Medical Microbiology and Infectious Diseases, Erasmus University Medical Center, Rotterdam, Netherlands.
⁴ Host-Microbe Interactomics Group, Wageningen University & Research, Wageningen, Netherlands.
⁵ Laboratory of Microbiology, Wageningen University & Research, Wageningen, Netherlands. raymond.staals@wur.nl.
⁶ Laboratory of Microbiology, Wageningen University & Research, Wageningen, Netherlands. john.vanderoost@wur.nl.

PMID: 34992260
DOI: 10.1038/s41579-021-00663-z

Review

Alternative functions of CRISPR-Cas systems in the evolutionary arms race

Prarthana Mohanraju et al. Nat Rev Microbiol. 2022 Jun.

. 2022 Jun;20(6):351-364.

doi: 10.1038/s41579-021-00663-z. Epub 2022 Jan 6.

Authors

Prarthana Mohanraju^{1

2}, Chinmoy Saha³, Peter van Baarlen⁴, Rogier Louwen³, Raymond H J Staals⁵, John van der Oost⁶

Affiliations

¹ Laboratory of Microbiology, Wageningen University & Research, Wageningen, Netherlands.
² Department of Anatomy and Embryology, Leiden University Medical Center, Leiden, Netherlands.
³ Department of Medical Microbiology and Infectious Diseases, Erasmus University Medical Center, Rotterdam, Netherlands.
⁴ Host-Microbe Interactomics Group, Wageningen University & Research, Wageningen, Netherlands.
⁵ Laboratory of Microbiology, Wageningen University & Research, Wageningen, Netherlands. raymond.staals@wur.nl.
⁶ Laboratory of Microbiology, Wageningen University & Research, Wageningen, Netherlands. john.vanderoost@wur.nl.

PMID: 34992260
DOI: 10.1038/s41579-021-00663-z

Abstract

CRISPR-Cas systems of bacteria and archaea comprise chromosomal loci with typical repetitive clusters and associated genes encoding a range of Cas proteins. Adaptation of CRISPR arrays occurs when virus-derived and plasmid-derived sequences are integrated as new CRISPR spacers. Cas proteins use CRISPR-derived RNA guides to specifically recognize and cleave nucleic acids of invading mobile genetic elements. Apart from this role as an adaptive immune system, some CRISPR-associated nucleases are hijacked by mobile genetic elements: viruses use them to attack their prokaryotic hosts, and transposons have adopted CRISPR systems for guided transposition. In addition, some CRISPR-Cas systems control the expression of genes involved in bacterial physiology and virulence. Moreover, pathogenic bacteria may use their Cas nuclease activity indirectly to evade the human immune system or directly to invade the nucleus and damage the chromosomal DNA of infected human cells. Thus, the evolutionary arms race has led to the expansion of exciting variations in CRISPR mechanisms and functionalities. In this Review, we explore the latest insights into the diverse functions of CRISPR-Cas systems beyond adaptive immunity and discuss the implications for the development of CRISPR-based applications.

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References

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[1] Koonin, E. V. Horizontal gene transfer: essentiality and evolvability in prokaryotes, and roles in evolutionary transitions. F1000Res 5, 1805 (2016). - DOI

[2] Koonin, E. V. Horizontal gene transfer: essentiality and evolvability in prokaryotes, and roles in evolutionary transitions. F1000Res 5, 1805 (2016). - DOI

[3] Vogan, A. A. & Higgs, P. G. The advantages and disadvantages of horizontal gene transfer and the emergence of the first species. Biol. Direct 6, 1 (2011). - PubMed - PMC - DOI

[4] Vogan, A. A. & Higgs, P. G. The advantages and disadvantages of horizontal gene transfer and the emergence of the first species. Biol. Direct 6, 1 (2011). - PubMed - PMC - DOI

[5] Tock, M. R. & Dryden, D. T. The biology of restriction and anti-restriction. Curr. Opin. Microbiol. 8, 466–472 (2005). - PubMed - DOI

[6] Tock, M. R. & Dryden, D. T. The biology of restriction and anti-restriction. Curr. Opin. Microbiol. 8, 466–472 (2005). - PubMed - DOI

[7] Labrie, S. J., Samson, J. E. & Moineau, S. Bacteriophage resistance mechanisms. Nat. Rev. Microbiol. 8, 317–327 (2010). - PubMed - DOI

[8] Labrie, S. J., Samson, J. E. & Moineau, S. Bacteriophage resistance mechanisms. Nat. Rev. Microbiol. 8, 317–327 (2010). - PubMed - DOI

[9] Doron, S. et al. Systematic discovery of antiphage defense systems in the microbial pangenome. Science 359, eaar4120 (2018). - PubMed - PMC - DOI

[10] Doron, S. et al. Systematic discovery of antiphage defense systems in the microbial pangenome. Science 359, eaar4120 (2018). - PubMed - PMC - DOI

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Alternative functions of CRISPR-Cas systems in the evolutionary arms race

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Alternative functions of CRISPR-Cas systems in the evolutionary arms race

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