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W2954123640 endingPage "171" @default.
W2954123640 startingPage "147" @default.
W2954123640 abstract "Gene therapy and transgenic research have advanced quickly in recent years due to the development of CRISPR technology. The rapid development of CRISPR technology has been largely benefited by chemical engineering. Firstly, chemical or synthetic substance enables spatiotemporal and conditional control of Cas9 or dCas9 activities. It prevents the leaky expression of CRISPR components, as well as minimizes toxicity and off-target effects. Multi-input logic operations and complex genetic circuits can also be implemented via multiplexed and orthogonal regulation of target genes. Secondly, rational chemical modifications to the sgRNA enhance gene editing efficiency and specificity by improving sgRNA stability and binding affinity to on-target genomic loci, and hence reducing off-target mismatches and systemic immunogenicity. Chemically-modified Cas9 mRNA is also more active and less immunogenic than the native mRNA. Thirdly, nonviral vehicles can circumvent the challenges associated with viral packaging and production through the delivery of Cas9-sgRNA ribonucleoprotein complex or large Cas9 expression plasmids. Multi-functional nanovectors enhance genome editing in vivo by overcoming multiple physiological barriers, enabling ligand-targeted cellular uptake, and blood-brain barrier crossing. Chemical engineering can also facilitate viral-based delivery by improving vector internalization, allowing tissue-specific transgene expression, and preventing inactivation of the viral vectors in vivo. This review aims to discuss how chemical engineering has helped improve existing CRISPR applications and enable new technologies for biomedical research. The usefulness, advantages, and molecular action for each chemical engineering approach are also highlighted." @default.
W2954123640 created "2019-07-12" @default.
W2954123640 creator A5033591190 @default.
W2954123640 creator A5049574955 @default.
W2954123640 date "2019-09-18" @default.
W2954123640 modified "2023-09-24" @default.
W2954123640 title "The Synergy between CRISPR and Chemical Engineering" @default.
W2954123640 cites W1726763524 @default.
W2954123640 cites W1751510803 @default.
W2954123640 cites W1833135536 @default.
W2954123640 cites W1968282235 @default.
W2954123640 cites W1973260880 @default.
W2954123640 cites W1975876487 @default.
W2954123640 cites W1978094899 @default.
W2954123640 cites W1993378568 @default.
W2954123640 cites W2003171404 @default.
W2954123640 cites W2003201962 @default.
W2954123640 cites W2003797386 @default.
W2954123640 cites W2004412843 @default.
W2954123640 cites W2007594606 @default.
W2954123640 cites W2010986636 @default.
W2954123640 cites W2019670881 @default.
W2954123640 cites W2025074364 @default.
W2954123640 cites W2027693306 @default.
W2954123640 cites W2030994161 @default.
W2954123640 cites W2039316426 @default.
W2954123640 cites W2043083543 @default.
W2954123640 cites W2045435533 @default.
W2954123640 cites W2055790209 @default.
W2954123640 cites W2061650108 @default.
W2954123640 cites W2064336725 @default.
W2954123640 cites W2064815984 @default.
W2954123640 cites W2066783444 @default.
W2954123640 cites W2069259673 @default.
W2954123640 cites W2070614858 @default.
W2954123640 cites W2075230442 @default.
W2954123640 cites W2078308455 @default.
W2954123640 cites W2085993152 @default.
W2954123640 cites W2090787765 @default.
W2954123640 cites W2092493681 @default.
W2954123640 cites W2101749257 @default.
W2954123640 cites W2103609218 @default.
W2954123640 cites W2108038398 @default.
W2954123640 cites W2112295554 @default.
W2954123640 cites W2116534141 @default.
W2954123640 cites W2119680107 @default.
W2954123640 cites W2120503144 @default.
W2954123640 cites W2121882633 @default.
W2954123640 cites W2123746851 @default.
W2954123640 cites W2126237980 @default.
W2954123640 cites W2130069008 @default.
W2954123640 cites W2132084309 @default.
W2954123640 cites W2140022328 @default.
W2954123640 cites W2143743183 @default.
W2954123640 cites W2149480270 @default.
W2954123640 cites W2152505144 @default.
W2954123640 cites W2154401446 @default.
W2954123640 cites W2155239981 @default.
W2954123640 cites W2160051211 @default.
W2954123640 cites W2163173465 @default.
W2954123640 cites W2165869860 @default.
W2954123640 cites W2166139447 @default.
W2954123640 cites W2175485670 @default.
W2954123640 cites W2186989880 @default.
W2954123640 cites W2209402024 @default.
W2954123640 cites W2210357377 @default.
W2954123640 cites W2260024370 @default.
W2954123640 cites W2268557312 @default.
W2954123640 cites W2292390328 @default.
W2954123640 cites W2294327742 @default.
W2954123640 cites W2297811838 @default.
W2954123640 cites W2336617255 @default.
W2954123640 cites W2343876552 @default.
W2954123640 cites W2345927874 @default.
W2954123640 cites W2443985919 @default.
W2954123640 cites W2470054126 @default.
W2954123640 cites W2501443726 @default.
W2954123640 cites W2504251930 @default.
W2954123640 cites W2508903105 @default.
W2954123640 cites W2511233179 @default.
W2954123640 cites W2519632665 @default.
W2954123640 cites W2521981506 @default.
W2954123640 cites W2547124821 @default.
W2954123640 cites W2558647619 @default.
W2954123640 cites W2560987571 @default.
W2954123640 cites W2568440465 @default.
W2954123640 cites W2570462922 @default.
W2954123640 cites W2582307536 @default.
W2954123640 cites W2588152092 @default.
W2954123640 cites W2590493137 @default.
W2954123640 cites W2590764628 @default.
W2954123640 cites W2609019318 @default.
W2954123640 cites W2610556191 @default.
W2954123640 cites W2612830428 @default.
W2954123640 cites W2685525666 @default.
W2954123640 cites W2736242246 @default.
W2954123640 cites W2745121158 @default.
W2954123640 cites W2748423437 @default.