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dc.contributor.author Moya-Beltrán, Ana
dc.contributor.author Makarova, Kira S.
dc.contributor.author Acuña, Lillian G.
dc.contributor.author Wolf, Yuri I.
dc.contributor.author Covarrubias, Paulo C.
dc.contributor.author Shmakov, Sergey A.
dc.contributor.author Silva, Cristian
dc.contributor.author Tolstoy, Igor
dc.contributor.author Johnson, D. Barrie
dc.contributor.author Koonin, Eugene V.
dc.contributor.author Quatrini, Raquel
dc.date.accessioned 2024-09-26T00:26:53Z
dc.date.available 2024-09-26T00:26:53Z
dc.date.issued 2021-10
dc.identifier.issn 2573-1599
dc.identifier.uri https://repositorio.uss.cl/handle/uss/12180
dc.description Publisher Copyright: © Copyright 2021, Mary Ann Liebert, Inc., publishers 2021.
dc.description.abstract Type IV CRISPR-Cas are a distinct variety of highly derived CRISPR-Cas systems that appear to have evolved from type III systems through the loss of the target-cleaving nuclease and partial deterioration of the large subunit of the effector complex. All known type IV CRISPR-Cas systems are encoded on plasmids, integrative and conjugative elements (ICEs), or prophages, and are thought to contribute to competition between these elements, although the mechanistic details of their function remain unknown. There is a clear parallel between the compositions and likely origin of type IV and type I systems recruited by Tn7-like transposons and mediating RNA-guided transposition. We investigated the diversity and evolutionary relationships of type IV systems, with a focus on those in Acidithiobacillia, where this variety of CRISPR is particularly abundant and always found on ICEs. Our analysis revealed remarkable evolutionary plasticity of type IV CRISPR-Cas systems, with adaptation and ancillary genes originating from different ancestral CRISPR-Cas varieties, and extensive gene shuffling within the type IV loci. The adaptation module and the CRISPR array apparently were lost in the type IV ancestor but were subsequently recaptured by type IV systems on several independent occasions. We demonstrate a high level of heterogeneity among the repeats with type IV CRISPR arrays, which far exceed the heterogeneity of any other known CRISPR repeats and suggest a unique adaptation mechanism. The spacers in the type IV arrays, for which protospacers could be identified, match plasmid genes, in particular those encoding the conjugation apparatus components. Both the biochemical mechanism of type IV CRISPR-Cas function and their role in the competition among mobile genetic elements remain to be investigated. en
dc.language.iso eng
dc.relation.ispartof vol. 4 Issue: no. 5 Pages: 656-672
dc.source CRISPR Journal
dc.title Evolution of Type IV CRISPR-Cas Systems : Insights from CRISPR Loci in Integrative Conjugative Elements of Acidithiobacillia en
dc.type Artículo
dc.identifier.doi 10.1089/crispr.2021.0051
dc.publisher.department Facultad de Medicina y Ciencia


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