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Diverse virus-encoded CRISPR-Cas systems include streamlined genome editors.

Cell (2022-11-25)
Basem Al-Shayeb, Petr Skopintsev, Katarzyna M Soczek, Elizabeth C Stahl, Zheng Li, Evan Groover, Dylan Smock, Amy R Eggers, Patrick Pausch, Brady F Cress, Carolyn J Huang, Brian Staskawicz, David F Savage, Steven E Jacobsen, Jillian F Banfield, Jennifer A Doudna
RESUMEN

CRISPR-Cas systems are host-encoded pathways that protect microbes from viral infection using an adaptive RNA-guided mechanism. Using genome-resolved metagenomics, we find that CRISPR systems are also encoded in diverse bacteriophages, where they occur as divergent and hypercompact anti-viral systems. Bacteriophage-encoded CRISPR systems belong to all six known CRISPR-Cas types, though some lack crucial components, suggesting alternate functional roles or host complementation. We describe multiple new Cas9-like proteins and 44 families related to type V CRISPR-Cas systems, including the Casλ RNA-guided nuclease family. Among the most divergent of the new enzymes identified, Casλ recognizes double-stranded DNA using a uniquely structured CRISPR RNA (crRNA). The Casλ-RNA-DNA structure determined by cryoelectron microscopy reveals a compact bilobed architecture capable of inducing genome editing in mammalian, Arabidopsis, and hexaploid wheat cells. These findings reveal a new source of CRISPR-Cas enzymes in phages and highlight their value as genome editors in plant and human cells.

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2x YT medium, Powder microbial growth medium