How to perform a CRISPR Knockin Experiment
Are you looking for a reliable and affordable way to knockin a gene? The CRISPR Cas9 system is the tool of the century for accomplishing targeted gene knockins.
In this video, the CRISPR Cas9 gene editing system is used to knockin the RFP gene into the AAVS1 Safe Harbor site in HEK Cells. The Safe Harbor site is a preferred site for gene knockins as it enables robust transgene expression with minimal toxic effects. First, we design an All-in-One CRISPR Cas9 sgRNA vector construct with the sgRNA targeted to the human AAVS1 locus. A donor plasmid containing the template for homology directed repair is also designed. After successful transfection, the success of the CRISPR Cas9 Knockin is verified using a PCR-based technique. This technique utilizes custom designed primers targeting a site within the RFP knockin. Knockin is confirmed when a PCR product is observed.
We welcome you to visit our website to learn more about our CRISPR Cas9 Knockin services as well as our full suite of CRISPR Cas9 services and products – designed to meet all your gene editing needs!
Read our complete CRISPR Knockin Case Study here:
➜ https://info.abmgood.com/crispr-cas9-case-studies
Read more about the basics of the CRISPR system on our knowledge base:
➜ https://info.abmgood.com/crispr-cas9
Want more tips, tricks, guides, and protocols on how to knockout a gene using CRISPR? Join our free, 4-week #CRISPRCrashCourse: http://info.abmgood.com/crispr-crash-course
Learn more about our CRISPR Knockout Cell Line Generation Service here:
➜ https://goo.gl/BGoXF6
Thank you to all of the amazing community contributions towards translating this video into other languages including:
➜ Spanish
(To view the translations, toggle the CC button and then go to Settings ➜ Subtitles/CC to select a language.)
Connect with us on our social media pages to stay up to date with the latest scientific discoveries:
➜ Facebook: https://goo.gl/hc9KrG
➜ Twitter: https://goo.gl/gGGtT9
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➜ Google+: https://goo.gl/5bRNwC
Видео How to perform a CRISPR Knockin Experiment канала Applied Biological Materials - abm
In this video, the CRISPR Cas9 gene editing system is used to knockin the RFP gene into the AAVS1 Safe Harbor site in HEK Cells. The Safe Harbor site is a preferred site for gene knockins as it enables robust transgene expression with minimal toxic effects. First, we design an All-in-One CRISPR Cas9 sgRNA vector construct with the sgRNA targeted to the human AAVS1 locus. A donor plasmid containing the template for homology directed repair is also designed. After successful transfection, the success of the CRISPR Cas9 Knockin is verified using a PCR-based technique. This technique utilizes custom designed primers targeting a site within the RFP knockin. Knockin is confirmed when a PCR product is observed.
We welcome you to visit our website to learn more about our CRISPR Cas9 Knockin services as well as our full suite of CRISPR Cas9 services and products – designed to meet all your gene editing needs!
Read our complete CRISPR Knockin Case Study here:
➜ https://info.abmgood.com/crispr-cas9-case-studies
Read more about the basics of the CRISPR system on our knowledge base:
➜ https://info.abmgood.com/crispr-cas9
Want more tips, tricks, guides, and protocols on how to knockout a gene using CRISPR? Join our free, 4-week #CRISPRCrashCourse: http://info.abmgood.com/crispr-crash-course
Learn more about our CRISPR Knockout Cell Line Generation Service here:
➜ https://goo.gl/BGoXF6
Thank you to all of the amazing community contributions towards translating this video into other languages including:
➜ Spanish
(To view the translations, toggle the CC button and then go to Settings ➜ Subtitles/CC to select a language.)
Connect with us on our social media pages to stay up to date with the latest scientific discoveries:
➜ Facebook: https://goo.gl/hc9KrG
➜ Twitter: https://goo.gl/gGGtT9
➜ LinkedIn: https://goo.gl/kSmbht
➜ Google+: https://goo.gl/5bRNwC
Видео How to perform a CRISPR Knockin Experiment канала Applied Biological Materials - abm
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7 июля 2017 г. 1:45:00
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