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W4297102731 endingPage "325" @default.
W4297102731 startingPage "311" @default.
W4297102731 abstract "The clustered regularly interspaced short palindromic repeats (CRISPR) and CRISPR-associated protein (CRISPR/Cas) system has altered life science research offering enormous options in manipulating, detecting, imaging, and annotating specific DNA or RNA sequences of diverse organisms. This system incorporates fragments of foreign DNA (spacers) into CRISPR cassettes, which are further transcribed into the CRISPR arrays and then processed to make guide RNA (gRNA). The CRISPR arrays are genes that encode Cas proteins. Cas proteins provide the enzymatic machinery required for acquiring new spacers targeting invading elements. Due to programmable sequence specificity, numerous Cas proteins such as Cas9, Cas12, Cas13, and Cas14 have been exploited to develop new tools for genome engineering. Cas variants stimulated genetic research and propelled the CRISPR/Cas tool for manipulating and editing nucleic acid sequences of living cells of diverse organisms. This review aims to provide detail on two classes (class 1 and 2) of the CRISPR/Cas system, and the mechanisms of all Cas proteins, including Cas12, Cas13, and Cas14 discovered so far. In addition, we also discuss the pros and cons and recent applications of various Cas proteins in diverse fields, including those used to detect viruses like severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). This review enables the researcher to gain knowledge on various Cas proteins and their applications, which have the potential to be used in next-generation precise genome engineering." @default.
W4297102731 created "2022-09-27" @default.
W4297102731 creator A5029574968 @default.
W4297102731 creator A5056119234 @default.
W4297102731 date "2022-09-27" @default.
W4297102731 modified "2023-10-11" @default.
W4297102731 title "A Review on the Mechanism and Applications of CRISPR/Cas9/Cas12/Cas13/Cas14 Proteins Utilized for Genome Engineering" @default.
W4297102731 cites W1933893097 @default.
W4297102731 cites W1967046461 @default.
W4297102731 cites W1972988800 @default.
W4297102731 cites W1988101725 @default.
W4297102731 cites W1990487336 @default.
W4297102731 cites W2006494972 @default.
W4297102731 cites W2010986636 @default.
W4297102731 cites W2045435533 @default.
W4297102731 cites W2047032063 @default.
W4297102731 cites W2052192736 @default.
W4297102731 cites W2054268736 @default.
W4297102731 cites W2064815984 @default.
W4297102731 cites W2074862753 @default.
W4297102731 cites W2077190448 @default.
W4297102731 cites W2084481314 @default.
W4297102731 cites W2101788140 @default.
W4297102731 cites W2101983500 @default.
W4297102731 cites W2107235611 @default.
W4297102731 cites W2107959600 @default.
W4297102731 cites W2112909982 @default.
W4297102731 cites W2118746294 @default.
W4297102731 cites W2120503144 @default.
W4297102731 cites W2130069008 @default.
W4297102731 cites W2137209165 @default.
W4297102731 cites W2149195791 @default.
W4297102731 cites W2153355254 @default.
W4297102731 cites W2159322112 @default.
W4297102731 cites W2162049340 @default.
W4297102731 cites W2163241233 @default.
W4297102731 cites W2164852115 @default.
W4297102731 cites W2165869860 @default.
W4297102731 cites W2166139447 @default.
W4297102731 cites W2168933209 @default.
W4297102731 cites W2169244146 @default.
W4297102731 cites W2341405505 @default.
W4297102731 cites W2464806956 @default.
W4297102731 cites W2518100987 @default.
W4297102731 cites W2522085729 @default.
W4297102731 cites W2529558525 @default.
W4297102731 cites W2562959833 @default.
W4297102731 cites W2563361853 @default.
W4297102731 cites W2566705644 @default.
W4297102731 cites W2567995016 @default.
W4297102731 cites W2574978705 @default.
W4297102731 cites W2590764628 @default.
W4297102731 cites W2606915822 @default.
W4297102731 cites W2623277795 @default.
W4297102731 cites W2754732683 @default.
W4297102731 cites W2763042654 @default.
W4297102731 cites W2770965090 @default.
W4297102731 cites W2785904295 @default.
W4297102731 cites W2787024379 @default.
W4297102731 cites W2792803089 @default.
W4297102731 cites W2793359586 @default.
W4297102731 cites W2800905921 @default.
W4297102731 cites W2811193845 @default.
W4297102731 cites W2897700601 @default.
W4297102731 cites W2902038937 @default.
W4297102731 cites W2917196339 @default.
W4297102731 cites W2921357732 @default.
W4297102731 cites W2924614669 @default.
W4297102731 cites W2973445868 @default.
W4297102731 cites W2994846355 @default.
W4297102731 cites W2995081665 @default.
W4297102731 cites W3004130955 @default.
W4297102731 cites W3004806486 @default.
W4297102731 cites W3006022816 @default.
W4297102731 cites W3007790804 @default.
W4297102731 cites W3008082355 @default.
W4297102731 cites W3017334101 @default.
W4297102731 cites W3035031154 @default.
W4297102731 cites W3044687136 @default.
W4297102731 cites W3083369815 @default.
W4297102731 cites W3086699405 @default.
W4297102731 cites W3105297460 @default.
W4297102731 cites W3111292947 @default.
W4297102731 cites W3133320274 @default.
W4297102731 cites W3133577546 @default.
W4297102731 cites W3154769069 @default.
W4297102731 cites W3165601247 @default.
W4297102731 cites W3195339673 @default.
W4297102731 cites W4206892629 @default.
W4297102731 cites W4224304709 @default.
W4297102731 cites W4239521868 @default.
W4297102731 cites W4283453746 @default.
W4297102731 cites W4292230674 @default.
W4297102731 doi "https://doi.org/10.1007/s12033-022-00567-0" @default.
W4297102731 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36163606" @default.
W4297102731 hasPublicationYear "2022" @default.
W4297102731 type Work @default.
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