Abstract
The prokaryotic immune system CRISPR-Cas (clustered regularly interspaced short palindromic repeats-CRISPR-associated) is a defense system that protects prokaryotes against foreign DNA. The short CRISPR RNAs (crRNAs) are central components of this immune system. In CRISPR-Cas systems type I and III, crRNAs are generated by the endonuclease Cas6. We developed a Cas6b-independent crRNA maturation pathway for the Haloferax type I-B system in vivo that expresses a functional crRNA, which we termed independently generated crRNA (icrRNA). The icrRNA is effective in triggering degradation of an invader plasmid carrying the matching protospacer sequence. The Cas6b-independent maturation of the icrRNA allowed mutation of the repeat sequence without interfering with signals important for Cas6b processing. We generated 23 variants of the icrRNA and analyzed them for activity in the interference reaction. icrRNAs with deletions or mutations of the 3' handle are still active in triggering an interference reaction. The complete 3' handle could be removed without loss of activity. However, manipulations of the 5' handle mostly led to loss of interference activity. Furthermore, we could show that in the presence of an icrRNA a strain without Cas6b (Δcas6b) is still active in interference.
Highlights
CRISPR RNAs are generated by Cas6b in type I-B systems
Northern blot analysis showed that an independently generated crRNA (icrRNA) is generated with the same size as the CRISPR RNAs (crRNAs) made in the wild type strain
IcrRNAs are excised from a precursor with the help of tRNA processing enzymes, resulting in small RNAs active in the interference reaction
Summary
CRISPR RNAs (crRNAs) are generated by Cas6b in type I-B systems They are essential for the interference reaction. Prokaryotes defend themselves against invaders using several different mechanisms to degrade foreign DNA or RNA, one of which is the clustered regularly interspaced short palindromic repeat-CRISPR associated (CRISPR-Cas) system [1,2,3,4,5,6] This defense mechanism progresses in three steps as. In type III systems, a second maturation step is observed after Cas processing, which shortens the crRNA 3Ј end and sometimes removes the complete repeat sequence downstream of the spacer [14, 15]. With the Cas6b-independent maturation pathway developed here, the first in vivo analysis of crRNA characteristics essential for the interference reaction was possible
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