In vitro reconstitution of Cascade‐mediated CRISPR immunity in Streptococcus thermophilus |
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| Authors: | Tomas Sinkunas Giedrius Gasiunas Sakharam P Waghmare Mark J Dickman Rodolphe Barrangou Philippe Horvath Virginijus Siksnys |
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| Affiliation: | 1. Department of Protein–DNA Interactions, Institute of Biotechnology, Vilnius University, , Vilnius, Lithuania;2. Department of Chemical and Biological Engineering, ChELSI Institute, University of Sheffield, , Sheffield, UK;3. DuPont Nutrition and Health, , Madison, WI, USA;4. DuPont Nutrition and Health, , Dangé‐Saint‐Romain, France |
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| Abstract: | Clustered regularly interspaced short palindromic repeats (CRISPR)‐encoded immunity in Type I systems relies on the Cascade (CRISPR‐associated complex for antiviral defence) ribonucleoprotein complex, which triggers foreign DNA degradation by an accessory Cas3 protein. To establish the mechanism for adaptive immunity provided by the Streptococcus thermophilus CRISPR4‐Cas (CRISPR‐associated) system (St‐CRISPR4‐Cas), we isolated an effector complex (St‐Cascade) containing 61‐nucleotide CRISPR RNA (crRNA). We show that St‐Cascade, guided by crRNA, binds in vitro to a matching proto‐spacer if a proto‐spacer adjacent motif (PAM) is present. Surprisingly, the PAM sequence determined from binding analysis is promiscuous and limited to a single nucleotide (A or T) immediately upstream (?1 position) of the proto‐spacer. In the presence of a correct PAM, St‐Cascade binding to the target DNA generates an R‐loop that serves as a landing site for the Cas3 ATPase/nuclease. We show that Cas3 binding to the displaced strand in the R‐loop triggers DNA cleavage, and if ATP is present, Cas3 further degrades DNA in a unidirectional manner. These findings establish a molecular basis for CRISPR immunity in St‐CRISPR4‐Cas and other Type I systems. |
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| Keywords: | DNA interference DNA‐dependent ATPase nuclease |
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