Nils Birkholz scite author profile

CRISPR-Cas systems are widespread bacterial adaptive defence mechanisms that provide protection against bacteriophages. In response, phages have evolved anti-CRISPR proteins that inactivate CRISPR-Cas systems of their hosts, enabling successful infection. Anti-CRISPR genes are frequently found in operons with genes encoding putative transcriptional regulators. The role, if any, of these anti-CRISPR-associated (aca) genes in anti-CRISPR regulation is unclear. Here, we show that Aca2, encoded by the Pectobacterium carotovorum temperate phage ZF40, is an autoregulator that represses the anti-CRISPR–aca2 operon. Aca2 is a helix-turn-helix domain protein that forms a homodimer and interacts with two inverted repeats in the anti-CRISPR promoter. The inverted repeats are similar in sequence but differ in their Aca2 affinity, and we propose that they have evolved to fine-tune, and downregulate, anti-CRISPR production at different stages of the phage life cycle. Specific, high-affinity binding of Aca2 to the first inverted repeat blocks the promoter and induces DNA bending. The second inverted repeat only contributes to repression at high Aca2 concentrations in vivo, and no DNA binding was detectable in vitro. Our investigation reveals the mechanism by which an Aca protein regulates expression of its associated anti-CRISPR.

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Conquering CRISPR: how phages overcome bacterial adaptive immunity

Malone

Birkholz

Fineran

2021

Current Opinion in Biotechnology

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Imprecise Spacer Acquisition Generates CRISPR-Cas Immune Diversity through Primed Adaptation

Jackson

Birkholz

Malone

et al. 2019

Cell Host & Microbe

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Graphical AbstractHighlights d Imprecisely acquired (slipped) spacers are impaired for CRISPR-Cas immunity d À1 and +1 slipped spacers stimulate primed CRISPR adaptation d Slipped spacers enhance priming before phage escape mutations arise d Slipping enhances CRISPR-Cas resilience to phage mutation by increasing immune diversity SUMMARY Many prokaryotes possess CRISPR-Cas adaptive immune systems to defend against viruses and invading mobile genetic elements. CRISPR-Cas immunity relies on genetic memories, termed spacers, for sequence-specific recognition of infections. The diversity of spacers within host populations is important for immune resilience, but we have limited understanding of how CRISPR diversity is generated. Type I CRISPR-Cas systems use existing spacers to enhance the acquisition of new spacers through primed CRISPR adaptation (priming). Here, we present a pathway to priming that is stimulated by imprecisely acquired (slipped) spacers. Slipped spacers are less effective for immunity but increase priming compared with canonical spacers. The benefits of slipping depend on the relative rates of phage mutation and adaptation during defense. We propose that slipped spacers provide a route to increase population-level spacer diversity that pre-empts phage escape mutant proliferation and that the trade-off between adaptation and immunity is important in diverse CRISPR-Cas systems.

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A host of armor: Prokaryotic immune strategies against mobile genetic elements

et al. 2023

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Nils Birkholz

The autoregulator Aca2 mediates anti-CRISPR repression

Conquering CRISPR: how phages overcome bacterial adaptive immunity

Imprecise Spacer Acquisition Generates CRISPR-Cas Immune Diversity through Primed Adaptation

A host of armor: Prokaryotic immune strategies against mobile genetic elements

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