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W2893187028 abstract "CRISPR-Cas systems constitute the adaptive immune system of bacteria and archaea, as a sequence-specific nucleic acid targeting defense mechanism. The sequence-specific recognition and cleavage of Cas effector complexes has been harnessed to developed CRISPR-based technologies and drive the genome editing revolution underway, due to their efficacy, efficiency, and ease of implementation in a broad range of organisms. CRISPR-based technologies offer a wide variety of opportunities in genome remodeling and transcriptional regulation, opening new avenues for therapeutic and biotechnological applications. To repurpose CRISPR-Cas systems for these applications, the various elements of the system need to be first identified and functionally characterized in their native host. Bioinformatic tools are first used to identify putative CRISPR arrays and their associated genes, followed by a comprehensive characterization of the CRISPR-Cas system, encompassing predictions for guide and target sequences. Subsequently, interference assays and transcriptomic analyses should be performed to probe the functionality of the CRISPR-Cas system. Once an endogenous CRISPR-Cas system is characterized as functional, they can be readily repurposed by delivering an engineered synthetic CRISPR array or a small RNA guide for targeted gene manipulation. Alternatively, developing a plasmid-based system for heterologous expression of the necessary CRISPR components can enable exploitation in other organisms. Altogether, there is a wide diversity of native CRISPR-Cas systems in many bacteria and most archaea that await functional characterization and repurposing for genome editing applications in prokaryotes." @default.
W2893187028 created "2018-10-05" @default.
W2893187028 creator A5001582402 @default.
W2893187028 creator A5030311871 @default.
W2893187028 creator A5085166852 @default.
W2893187028 date "2019-01-01" @default.
W2893187028 modified "2023-10-02" @default.
W2893187028 title "Characterization and Repurposing of Type I and Type II CRISPR–Cas Systems in Bacteria" @default.
W2893187028 cites W1548051619 @default.
W2893187028 cites W1694106484 @default.
W2893187028 cites W1926535993 @default.
W2893187028 cites W1967046461 @default.
W2893187028 cites W1978942464 @default.
W2893187028 cites W1981185465 @default.
W2893187028 cites W1989020100 @default.
W2893187028 cites W1996555720 @default.
W2893187028 cites W2000046950 @default.
W2893187028 cites W2033479099 @default.
W2893187028 cites W2034786222 @default.
W2893187028 cites W2039375385 @default.
W2893187028 cites W2044167113 @default.
W2893187028 cites W2045435533 @default.
W2893187028 cites W2062521268 @default.
W2893187028 cites W2076785026 @default.
W2893187028 cites W2087089981 @default.
W2893187028 cites W2090211843 @default.
W2893187028 cites W2095745609 @default.
W2893187028 cites W2101749257 @default.
W2893187028 cites W2117444879 @default.
W2893187028 cites W2119633529 @default.
W2893187028 cites W2120263648 @default.
W2893187028 cites W2123954468 @default.
W2893187028 cites W2127391962 @default.
W2893187028 cites W2128112204 @default.
W2893187028 cites W2134023754 @default.
W2893187028 cites W2134941170 @default.
W2893187028 cites W2135598273 @default.
W2893187028 cites W2137721714 @default.
W2893187028 cites W2148245360 @default.
W2893187028 cites W2149751339 @default.
W2893187028 cites W2155208047 @default.
W2893187028 cites W2158266834 @default.
W2893187028 cites W2158714788 @default.
W2893187028 cites W2160051211 @default.
W2893187028 cites W2163481728 @default.
W2893187028 cites W2169244146 @default.
W2893187028 cites W2199695484 @default.
W2893187028 cites W2204786127 @default.
W2893187028 cites W2204875887 @default.
W2893187028 cites W2312592272 @default.
W2893187028 cites W2327182906 @default.
W2893187028 cites W2343655376 @default.
W2893187028 cites W2399213131 @default.
W2893187028 cites W2399809721 @default.
W2893187028 cites W2405625753 @default.
W2893187028 cites W2407174002 @default.
W2893187028 cites W2412140074 @default.
W2893187028 cites W2416874763 @default.
W2893187028 cites W2463802462 @default.
W2893187028 cites W2473112503 @default.
W2893187028 cites W2473953377 @default.
W2893187028 cites W2511569157 @default.
W2893187028 cites W2513770361 @default.
W2893187028 cites W2550728222 @default.
W2893187028 cites W2553845783 @default.
W2893187028 cites W2563854055 @default.
W2893187028 cites W2580171608 @default.
W2893187028 cites W2588634186 @default.
W2893187028 cites W2593264565 @default.
W2893187028 cites W2603578729 @default.
W2893187028 cites W2605735428 @default.
W2893187028 cites W2615361142 @default.
W2893187028 cites W2622258133 @default.
W2893187028 cites W2626393024 @default.
W2893187028 cites W2657274940 @default.
W2893187028 cites W2753116183 @default.
W2893187028 cites W2765859224 @default.
W2893187028 cites W2766796494 @default.
W2893187028 cites W2770965090 @default.
W2893187028 cites W2773206681 @default.
W2893187028 cites W2783755818 @default.
W2893187028 cites W2793240171 @default.
W2893187028 cites W2797928483 @default.
W2893187028 cites W2803245377 @default.
W2893187028 cites W2807780176 @default.
W2893187028 cites W4233524498 @default.
W2893187028 cites W4238526656 @default.
W2893187028 cites W4244026361 @default.
W2893187028 doi "https://doi.org/10.1016/j.jmb.2018.09.013" @default.
W2893187028 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30261168" @default.
W2893187028 hasPublicationYear "2019" @default.
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