eLife (Aug 2017)

Type III CRISPR-Cas systems can provide redundancy to counteract viral escape from type I systems

  • Sukrit Silas,
  • Patricia Lucas-Elio,
  • Simon A Jackson,
  • Alejandra Aroca-Crevillén,
  • Loren L Hansen,
  • Peter C Fineran,
  • Andrew Z Fire,
  • Antonio Sánchez-Amat

DOI
https://doi.org/10.7554/eLife.27601
Journal volume & issue
Vol. 6

Abstract

Read online

CRISPR-Cas-mediated defense utilizes information stored as spacers in CRISPR arrays to defend against genetic invaders. We define the mode of target interference and role in antiviral defense for two CRISPR-Cas systems in Marinomonas mediterranea. One system (type I-F) targets DNA. A second system (type III-B) is broadly capable of acquiring spacers in either orientation from RNA and DNA, and exhibits transcription-dependent DNA interference. Examining resistance to phages isolated from Mediterranean seagrass meadows, we found that the type III-B machinery co-opts type I-F CRISPR-RNAs. Sequencing and infectivity assessments of related bacterial and phage strains suggests an ‘arms race’ in which phage escape from the type I-F system can be overcome through use of type I-F spacers by a horizontally-acquired type III-B system. We propose that the phage-host arms race can drive selection for horizontal uptake and maintenance of promiscuous type III interference modules that supplement existing host type I CRISPR-Cas systems.

Keywords