Anti-CRISPR Discovery: Using Magnets to Find Needles in Haystacks

CRISPR-Cas immune systems in bacteria and archaea protect against viral infection, which has spurred viruses to develop dedicated inhibitors of these systems called anti-CRISPRs (Acrs). Like most host-virus arms races, many diverse examples of these immune and counter-immune proteins are encoded by the genomes of bacteria, archaea, and their viruses. For the case of Acrs, it is almost certain that just a small minority of nature’s true diversity has been described. In this review, I discuss the various approaches used to identify these Acrs and speculate on the future for Acr discovery. Because Acrs can determine infection outcomes in nature and regulate CRISPR-Cas activities in applied settings, they have a dual importance to both host-virus conflicts and emerging biotechnologies. Thus, revealing the largely hidden world of Acrs should provide important lessons in microbiology that have the potential to ripple far beyond the field.     

anti-CRISPR的起源、发展和应用

细菌和古菌等微生物与病毒（噬菌体）之间的生存之战是一场“军备竞赛”。细菌和古菌已经进化出多种先天和适应性的免疫系统来抵御噬菌体的入侵。噬菌体则利用不同的对抗策略来躲避这些噬菌体防御机制。CRISPR-Cas （Clustered Regularly Interspaced Short Palindromic Repeats-CRISPR-Associated）系统就是细菌和古菌广泛编码的一种抵御噬菌体等外源遗传元件的获得性免疫系统,与此同时,噬菌体也进化出特异性的anti-CRISPR来抵抗CRISPR-Cas系统的免疫。本文系统综述了anti-CRISPR的发现过程、分类和作用机制,并展望了其潜在的应用。     

Structural snapshots of R-loop formation by a type I-C CRISPR Cascade

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