RT Journal Article
SR Electronic
T1 Co-occurrence of multiple CRISPRs and <em>cas</em> clusters suggests epistatic interactions
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 592600
DO 10.1101/592600
A1 Aude Bernheim
A1 David Bikard
A1 Marie Touchon
A1 Eduardo PC Rocha
YR 2019
UL http://biorxiv.org/content/early/2019/03/30/592600.abstract
AB Prokaryotes use CRISPR-Cas for adaptive immunity, but the reasons for the existence of multiple CRISPR and cas clusters remain poorly understood. We found that more than 40% of the genomes encoding a system show atypical genetic organizations. Their analysis revealed negative and positive epistatic interactions between Cas subtypes. The latter often result in one single complex locus with a shared adaptation module and diverse interference mechanisms, presumably to produce more effective immune systems. We typed CRISPRs that could not be unambiguously associated with a cas cluster and found that such complex loci tend to have unique type I repeats in multiple CRISPRs. In contrast, under-represented co-occurrences caused by functional interference or redundancy may lead to CRISPRs distant from cas genes. To investigate the origin of atypical CRISPR-Cas organizations, we analyzed plasmids and phages. Sets of nearly 2000 phages and 10000 prophages were almost devoid of CRISPR-Cas systems, but a sizeable fraction of plasmids had them. Isolated CRISPRs in plasmids were often compatible with the chromosomal cas clusters, suggesting that plasmids use CRISPRs to subvert host immunity. These results point to an important role for the interactions between multiple CRISPR and Cas in the function and evolution of bacterial immunity.