Overview
Streamline genome-wide surveys and screens
With cell lines that express Cas9, you can more easily and efficiently conduct high-throughput gRNA validation and genome-wide surveys and screens. SBI’s DIY Cas9-expressing Cells HR Donor enables the knock-in of hspCas9 into the AAVS1 safe harbor site so that you can stably express Cas9 in the cell line of your choice.
Use with any Cas9 delivery method and a gRNA targeting AAVS1 (we recommend our All-in-one Cas9 SmartNuclease & AAVS1 gRNA Plasmid). As with all of our AAVS1 HR Targeting Vectors, the DIY Cas9-expressing Cells HR Donor is designed to limit off-target integration. Taking advantage of the AAVS1’s location within an intron, these vectors come with a puromycin marker that has no promoter, only a splice acceptor site—expression of puromycin can only occur when the construct integrates within an intron, reducing the probability of recovering off-target integrants in the presence of puromycin selection.
How It Works
Make your own Cas9-expressing cells
Making your own Cas9-expressing cells follows the same workflow as a gene knock-in (Figure 1)—co-transfect the HR Donor vector with a Cas9 delivery method and a gRNA targeting AAVS1 (we recommend our All-in-one Cas9 SmartNuclease & AAVS1 gRNA Plasmid). The gRNA targeting AAVS1 will direct Cas9 activity to the AAVS1 site resulting in a double-strand break (DSB). Because the donor arms on the DIY Cas9-expressing Cells HR Donor are complementary to the AAVS1 site, they will mediate repair of the DSB through homologous recombination of the donor arms with the AAVS1 site. Repair with the HR Donor will result in the hspCas9 gene being inserted into the AAVS1 site.
Figure 1. Schematic showing CRISPR/Cas9-mediated gene knock-in of Cas9 at the AAVS1 safe harbor site.
CRISPR/Cas9 Basics
Through careful selection of the target sequence and design of a donor plasmid for homologousrecombination, you can achieve efficient and highly targeted genomic modification with CRISPR/Cas9.
The system
Cas9 protein—uses guide RNA (gRNA) to direct site-specific, double-strand DNA cleavage adjacent to a protospacer adapter motif (PAM) in the target DNA.
gRNA—RNA sequence that guides Cas9 to cleave a homologous region in the target genome. Efficient cleavage only where the gRNA homology is adjacent to a PAM.
PAM—protospacer adapter motif, NGG, is a target DNA sequence that spCas9 will cut upstream from if directed to by the gRNA.
The workflow at-a-glance
DESIGN: Select gRNA and HR donor plasmids. Choice of gRNA site and design of donorplasmid determines whether the homologous recombination event results in a knock-out,knock-in, edit, or tagging.
CONSTRUCT: Clone gRNA into all-in-one Cas9 vector. Clone 5’ and 3’ homology arms into HRdonor plasmid. If creating a knock-in, clone desired gene into HR donor.
CO-TRANSFECT or CO-INJECT: Introduce Cas9, gRNA, and HR Donors into the target cellsusing co-transfection for plasmids, co-transduction for lentivirus, or co-injection for mRNAs.
SELECT/SCREEN: Select or screen for mutants and verify.
VALIDATE: Genotype or sequence putative mutants to verify single or biallelic conversion.
Supporting Data
Get good Cas9 expression from the AAVS1 site
Cas9-knock-in-data
Figure 2. Use of the DIY Cas9-expressing Cells HR Donor leads to good expression of Cas9 from the AAVS1 site. We knocked the CAS9 gene into the AAVS1 site using the DIY Cas9-expressing Cells HR Donor and the All-in-one Cas9 SmartNuclease & AAVS1 gRNA Plasmid. We then tested the resulting positive clones for relative Cas9 mRNA expression using qPCR (left panel) and analyzed the two highest-expressing clones (#8 and 17) for Cas9-mediated cleavage activity using a Surveyor Assay (right panel, arrow indicated band showing Cas9-mediated cleavage). In the Surveyor Assay, only the two lanes with the Cas9 clones showed Cas9 activity (arrow), with the non-transfected cells showing no Cas9 activity.
Resources
Citations
- Ihry, RJ, et al. (2018) p53 inhibits CRISPR-Cas9 engineering in human pluripotent stem cells. Nat. Med..2018 Jun 11;. PM ID:29892062
System Biosciences,简称SBI,美国加州湾区新成立的生技公司,致力于独特、创新生物技术之开发,以研发利于基因及蛋白质功能鉴定、研究之崭新方法和工具为宗旨。 现阶段研发重心为RNA干扰(RNAi)研究之相关工具。 System Biosciences (SBI) 致力于开发独特、革新的技术,为客户研究蛋白组学和基因组学功能提供研究工具。SBI 是专业的慢病毒产品公司,提供基于慢病毒的所有相关产品、质粒、试剂盒及相关配套试剂和慢病毒延伸产品如IPS细胞多功能性诱导试剂盒和RNAi筛选文库。
SBI focuses on developing unique, innovative technologies that provide researchers with the tools to investigate and understand genomic and proteomic function. Our mission is to provide tools for the genome-wide analysis of the mechanisms that regulate cellular processes and biological responses.
Headquartered in Palo Alto about 30 miles south of San Francisco, SBI is geographically surrounded by highly successful research biotech companies (e.g., Affymetrix, Life Technologies, and Genentech) and some of the premier life science institutes in the world, including Stanford and the University of California, San Francisco.
As a small private biotechnology company, SBI capitalizes on a rich network of consultants and colleagues and continually collaborates to accelerate its development of innovative and novel applications. Currently, SBI has partnerships with over thirty scientists from several institutes.System Biosciences (SBI) consists of a highly motivated team committed to realizing the potential of its mission to develop and bring to market unique and innovative technology to investigate and understand genomic and proteomic function.
Possessing a diverse range of experience and knowledge, SBI's management and staff bring the skills, talent, and interest needed to support the company's continuing rapid growth.
A strong and proven background in creative research and product development with proficiency in genetic analysis, microarray technology, and cell biology
Extensive business development and management experience
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Expertise in developing, marketing, and supporting consistent, high-quality research products
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