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  • Targeted genome modification has been hampered by the lack of an efficient tool to create

  • a double-stranded break at a designed location.

  • The CRISPR/CAS system is an RNA-guided nuclease system for the targeted introduction of double

  • stranded DNA cleavage.

  • Originally discovered in bacteria as an acquired defense against foreign pathogens, CRISPR/CAS

  • technology has been demonstrated to work successfully in all the common model organisms, making

  • it one of the hottest technology breakthroughs in 2013.

  • Targeted genomic cleavage requires two key elements: a homing device and an endonuclease.

  • In the CRISPR/CAS platform, the homing device is guide RNA, or gRNA and a CAS nuclease.

  • The gRNA contains a twenty-nucleotide target sequence immediately upstream of a Protospacer

  • Adjacent Motif or PAM, linked to a tracrRNA scaffold.

  • This is sufficient to direct the CAS9 nuclease to the complementary site in the genome and

  • create a double-stranded break.

  • Compared to previous genome editing methods, such as ZNF and TALEN, CRIPSR/CAS is cheaper,

  • quicker, and more accessible for researchers.

  • Due to its amazing simplicity, CRIPSR-based genome editing can be achieved with a simple

  • transfection.

  • OriGene offers an all-in-one vector, pCas-Guide, engineered with all the essential elements

  • for targeted cleavage.

  • * The codon-optimized Cas9 expression * A cloning site for a twenty nucleotide target

  • sequence * And a gRNA scaffold downstream of the cloning

  • site to be transcribed into a complete gRNA by a U6 promoter.

  • With a target sequence cloned into this vector, cells transfected with these constructs will

  • express Cas9 nuclease and the guide RNA, which will then lead to a sequence-specific double-stranded

  • break in the genome.

  • Other vector variations are also available to provide added convenience, such as GFP

  • for transfection monitoring or Lenti-backbone for viral delivery.

  • For researchers who perform mRNA microinjection or mRNA transfection, a T7 driven expression

  • vector is available.

  • With the CRISPR/CAS system, genome editing is now smooth sailing.

  • Two types of editing are commonly used.

  • Homologous recombination utilizes a repair template.

  • The desired changes are flanked by left and right homologous arm sequences.

  • Upon double crossover, the desired change is integrated into the genome.

  • Applications include gene knockout, gene-tagging, and site-specific mutagenesis.

  • Non-homologous end joining, where the ends of the break are joined together, introduces

  • random mutations, insertions, and deletions.

  • This can also be used to create variant libraries.

  • Applications for CRISPR/Cas9 are endless.

  • You can generate an in-del variant library at a targeted locus.

  • You can knock out a target gene and simultaneously knock-in a functional cassette, such as a

  • mammalian selection marker or a fluorescent marker.

  • And you can introduce pre-designed mutations.

  • One common application is the promoter study.

  • It requires the insertion of a reporter gene, such as luciferase and/or a GFP, at the first

  • exon of a target gene.

  • This results in knocking out the target gene and knocking in the reporter, therefore enabling

  • the researcher to monitor the promoter activity.

  • For this application, OriGene offers a complete solution.

  • Simply search with a gene symbol, and you can find a fully functional kit containing

  • * Two gRNA vectors, * One donor vector,

  • * And one scramble control vector

  • Another common application is the safe-harbor insertion of transgenes.

  • Compared to other transgene insertion methods, this method provides total control, for insertion

  • site, orientation, as well as for copy number.

  • A ready-to-use kit for this application is coming soon from OriGene as well.

  • A ready-to-use kit for this application is now available from Origene

  • Origene brings you a complete CRISPR/Cas solution that is simple and easy to use.

  • To learn more please visit the Origene website.

Targeted genome modification has been hampered by the lack of an efficient tool to create

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快速學習CRISPR/Cas9 (Quick learning of CRISPR/Cas9)

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    zywang 發佈於 2021 年 01 月 14 日
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