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Class-IIS restriction enzymes — a review
Gene, 1991Class-IIS restriction enzymes (ENases-IIS) interact with two discrete sites on double-stranded DNA: the recognition site, which is 4-7 bp long, and the cleavage site, usually 1-20 bp away from the recognition site. The recognition sequences of ENases-IIS are totally (or partially) asymmetric and all of the characterized ENases-IIS are monomeric.
Szybalski, W +3 more
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Restriction & Modification Enzymes
2022Restriction and modification enzymes serve as nature’s genetic gatekeepers. These specialized proteins function together as a defence mechanism in bacteria and protect them from invading foreign DNA, such as that of bacteriophages. Restriction enzymes, also known as restriction endonucleases, recognize specific sequences within the DNA and cleave it at
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Restriction enzymes are bacterial enzymes that cleave DNA at specific recognition sequences, usually consisting of four to eight base pairs. These enzymes have become invaluable tools in molecular biology, enabling scientists to manipulate and analyze DNA in various ways. Restriction enzymes are used in various applications, including gene cloning, DNA
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Model for wandering restriction enzymes
Nature, 1974I WISH to propose a model for those DNA restriction enzymes which, although requiring specific recognition sites, make a limited number of cuts at apparently random sites, far from the recognition sites.
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Carbohydrate-active enzymes (CAZymes) in the gut microbiome
Nature Reviews Microbiology, 2022Jacob F Wardman +2 more
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Structural biology of CRISPR–Cas immunity and genome editing enzymes
Nature Reviews Microbiology, 2022Joy Y Wang +2 more
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From restriction factors to restriction enzymes
Reviews in Medical Virology, 2004openaire +2 more sources