Bacteriophage genes that inactivate the CRISPR/Cas bacterial immune system
2012; Nature Portfolio; Volume: 493; Issue: 7432 Linguagem: Inglês
10.1038/nature11723
ISSN1476-4687
AutoresJoe Bondy-Denomy, April Pawluk, Karen L. Maxwell, Alan R. Davidson,
Tópico(s)Insect symbiosis and bacterial influences
ResumoFive classes of phage genes are identified that protect phages from CRISPR-mediated bacterial immunity. CRISPR/Cas immune systems, widely distributed in bacteria and Archaea, protect microbial cells from phage attack through the use of small RNAs for sequence-specific detection and neutralization of invading genomes. It has been suggested that 'anti-CRISPR' mechanisms might exist, and here Alan Davidson and colleagues identify phage-encoded factors that inhibit the CRISPR/Cas system. They also find homologues of these genes in Pseudomonas species, indicating that anti-CRISPR elements have a critical role in the evolution of this bacterial pathogen. A widespread system used by bacteria for protection against potentially dangerous foreign DNA molecules consists of the clustered regularly interspaced short palindromic repeats (CRISPR) coupled with cas (CRISPR-associated) genes1. Similar to RNA interference in eukaryotes2, these CRISPR/Cas systems use small RNAs for sequence-specific detection and neutralization of invading genomes3. Here we describe the first examples of genes that mediate the inhibition of a CRISPR/Cas system. Five distinct ‘anti-CRISPR’ genes were found in the genomes of bacteriophages infecting Pseudomonas aeruginosa. Mutation of the anti-CRISPR gene of a phage rendered it unable to infect bacteria with a functional CRISPR/Cas system, and the addition of the same gene to the genome of a CRISPR/Cas-targeted phage allowed it to evade the CRISPR/Cas system. Phage-encoded anti-CRISPR genes may represent a widespread mechanism for phages to overcome the highly prevalent CRISPR/Cas systems. The existence of anti-CRISPR genes presents new avenues for the elucidation of CRISPR/Cas functional mechanisms and provides new insight into the co-evolution of phages and bacteria.
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