Cas4-Cas1 fusions drive efficient PAM selection and control CRISPR adaptation
Cas4-Cas1 fusions drive efficient PAM selection and control CRISPR adaptation
Microbes have the unique ability to acquire immunological memories from mobile genetic invaders to protect themselves from predation. To confer CRISPR resistance, new spacers need to be compatible with a targeting requirement in the invader's DNA called the protospacer adjacent motif (PAM). Many CRISPR systems encode Cas4 proteins to ensure new spacers are integrated that meet this targeting prerequisite. Here we report that a gene fusion between cas4 and cas1 from the Geobacter sulfurreducens I-U CRISPR–Cas system is capable of introducing functional spacers carrying interference proficient TTN PAM sequences at much higher frequencies than unfused Cas4 adaptation modules. Mutations of Cas4-domain catalytic residues resulted in dramatically decreased naïve and primed spacer acquisition, and a loss of PAM selectivity showing that the Cas4 domain controls Cas1 activity. We propose the fusion gene evolved to drive the acquisition of only PAM-compatible spacers to optimize CRISPR interference.
5223-5230
Almendros, Cristobal
3933839d-a7b8-485c-8764-f7d5967f8a92
Luzia De Nobrega, Franklin
6532795d-88a4-4f05-9b26-6af5b8f21a0d
McKenzie, Rebecca
d034191e-42f0-4c00-9654-5f448942c188
Brouns, Stan J.J.
b9c93a6a-120b-476b-8394-048e41d8ae79
4 June 2019
Almendros, Cristobal
3933839d-a7b8-485c-8764-f7d5967f8a92
Luzia De Nobrega, Franklin
6532795d-88a4-4f05-9b26-6af5b8f21a0d
McKenzie, Rebecca
d034191e-42f0-4c00-9654-5f448942c188
Brouns, Stan J.J.
b9c93a6a-120b-476b-8394-048e41d8ae79
Almendros, Cristobal, Luzia De Nobrega, Franklin, McKenzie, Rebecca and Brouns, Stan J.J.
(2019)
Cas4-Cas1 fusions drive efficient PAM selection and control CRISPR adaptation.
Nucleic Acids Research, 47 (10), .
(doi:10.1093/nar/gkz217).
Abstract
Microbes have the unique ability to acquire immunological memories from mobile genetic invaders to protect themselves from predation. To confer CRISPR resistance, new spacers need to be compatible with a targeting requirement in the invader's DNA called the protospacer adjacent motif (PAM). Many CRISPR systems encode Cas4 proteins to ensure new spacers are integrated that meet this targeting prerequisite. Here we report that a gene fusion between cas4 and cas1 from the Geobacter sulfurreducens I-U CRISPR–Cas system is capable of introducing functional spacers carrying interference proficient TTN PAM sequences at much higher frequencies than unfused Cas4 adaptation modules. Mutations of Cas4-domain catalytic residues resulted in dramatically decreased naïve and primed spacer acquisition, and a loss of PAM selectivity showing that the Cas4 domain controls Cas1 activity. We propose the fusion gene evolved to drive the acquisition of only PAM-compatible spacers to optimize CRISPR interference.
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gkz217
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Accepted/In Press date: 28 March 2019
e-pub ahead of print date: 2 April 2019
Published date: 4 June 2019
Identifiers
Local EPrints ID: 443366
URI: http://eprints.soton.ac.uk/id/eprint/443366
ISSN: 0305-1048
PURE UUID: 0dee7944-e475-40ae-85f9-2d15078aa753
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Date deposited: 21 Aug 2020 16:31
Last modified: 17 Mar 2024 04:02
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Author:
Cristobal Almendros
Author:
Rebecca McKenzie
Author:
Stan J.J. Brouns
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