Journal
NATURE
Volume 520, Issue 7548, Pages 505-+Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/nature14302
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Funding
- Israel Science Foundation [1303/12, 1796, 268/14]
- European Research Council [260432, 336079]
- Human Frontier Science Program [RGP0011/2013]
- Abisch-Frenkel foundation
- Pasteur-Weizmann Council
- Minerva Foundation
- Deutsch-Israelische Projektkooperation grant from the Deutsche Forschungsgemeinschaft
- Israeli Ministry of Health [9988-3]
- Azrieli Foundation
- European Research Council (ERC) [260432, 336079] Funding Source: European Research Council (ERC)
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CRISPR-Cas (clustered, regularly interspaced short palindromic repeats coupled with CRISPR-associated proteins) is a bacterial immunity system that protects against invading phages or plasmids. In the process of CRISPR adaptation, short pieces of DNA ('spacers') are acquired from foreign elements and integrated into the CRISPR array. So far, it has remained a mystery how spacers are preferentially acquired from the foreign DNA while the self chromosome is avoided. Here we show that spacer acquisition is replication-dependent, and that DNA breaks formed at stalled replication forks promote spacer acquisition. Chromosomal hotspots of spacer acquisition were confined by Chi sites, which are sequence octamers highly enriched on the bacterial chromosome, suggesting that these sites limit spacer acquisition from self DNA. We further show that the avoidance of self is mediated by the RecBCD double-stranded DNA break repair complex. Our results suggest that, in Escherichia coli, acquisition of new spacers largely depends on RecBCD-mediated processing of double-stranded DNA breaks occurring primarily at replication forks, and that the preference for foreign DNA is achieved through the higher density of Chi sites on the self chromosome, in combination with the higher number of forks on the foreign DNA. This model explains the strong preference to acquire spacers both from high copy plasmids and from phages.
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