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유전자 삽입을 위한 donor template 합성 (5 kb ssDNA)

[Upgrade] Guide-it™ Long ssDNA Production System v2

제조사	제품코드	제품명	용량	가격 (부가세별도)	비고	사용자매뉴얼
Clontech	632666	Guide-it™ Long ssDNA Production System v2	50회 (Package)	1,257,000원

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유전자 편집 전 단계
편집 유전자 도입
유전자 편집 후 확인
CRE recombinase
- CRE Recombinase Gesicl..
- AAV Helper Free System..

* 본 제품은 기존 Guide-it™ Long ssDNA Production System (Code 632644)의 업그레이드 버전 제품입니다.
성공적인 Knock-in을 위한 FAQ 확인 (클릭)

다양한 gene editing tool의 유전자 삽입을 위한 donor template 합성
500bp ~ 5kb 까지의 single strand DNA (ssDNA) 합성 가능
Cloning과 Gel selection 정제 과정이 없는 빠르고 쉬운 프로토콜
Off target 최소화 - dsDNA donor template에 비하여 극도로 낮은 random한 off-target integration로 높은 Editing 효율
세포독성을 최소화하여, 세포 생존율 향상

제품설명

유전자 삽입을 위한 Donor repair template의 경우 double-stranded DNA (dsDNA)에 비하여 single-stranded DNA (ssDNA) repair template가 보다 많은 이점이 있다고 알려져 있지만, long ssDNA donor template의 합성과 비용의 문제가 있었다.
Guide-it™ Long ssDNA Production System v2는 다양한 gene editing tool을 이용한 knock-in 실험을 위한 최장 5kb의 ssDNA repair template oligonucleotide를 50회 합성할 수 있는 제품이다. 기존 제품에 비해 Strandase의 성능이 업그레이드 되었을 뿐 아니라, 최적의 buffer와 정제제품까지 포함하고 있다. 본 제품을 이용하면 Strandase를 처리하는 것만으로도 dsDNA PCR 산물을 sense 또는 antisense strand로 분리하여 ssDNA를 제작할 수 있다.

ssDNA donor template의 장점

Significantly reduced random and off-target integration, resulting in improved gene editing efficiency and lower likelihood of experimental artefacts
Minimal cytotoxicity, enabling recovery of larger populations of edited cells
Negligible transgene expression from nonintegrated templates, allowing for easier identification of correctly edited clones

그림 1. Schematic describing the steps involved in the preparation of long ssDNA donors for use in HDR experiments.

그림 2. Guide-it Long ssDNA Production System v2를 이용해 개선된 ssDNA 합성 성능
dsDNA와 기존 제품으로 합성한 ssDNA와 전기영동으로 분석했을 때, 업그레이드된 Guide-it Long ssDNA Production System v2로 합성한 ssDNA에서 가장 선명한 밴드로 확인되었다.
Gel image showing the dsDNA starting material (Lane 1) and sense (SS) or antisense (AS) ssDNA products for several HDR templates generated using the original (v1) or updated (v2) versions of the Guide-it Long ssDNA Production System (Lane 2 and Lane 3, respectively). dsDNA templates included in this analysis had been identified as challenging substrates for ssDNA generation using the v1 Guide-it kit. The dsDNA and ssDNA were analyzed via agarose gel electrophoresis using ethidium bromide as a staining agent. ssDNA products run at a smaller molecular weight than corresponding dsDNA substrates. In all cases, the Guide-it Long ssDNA Production System v2 generated a cleaner band of ssDNA than the previous version of the kit, suggesting more complete and uniform digestion.

자세한 구성은 CoA를 참고하세요.

Citation

Reprogramming human T cell function and specificity with non-viral genome targeting
Nature | 2018 Jun 07 | PubMed ID: 29995861 | Read Article

Gut–brain circuits for fat preference
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Rapid, efficient and activation-neutral gene editing of polyclonal primary human resting CD4 + T cells allows complex functional analyses
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Differential dependencies of human RNA polymerase II promoters on TBP, TAF1, TFIIB and XPB
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OTUD1 Activates Caspase-Independent and Caspase-Dependent Apoptosis by Promoting AIF Nuclear Translocation and MCL1 Degradation
Advanced Science | 2021 Feb 08 | PubMed ID: 33898171 | Read Article

MutL sliding clamps coordinate exonuclease-independent Escherichia coli mismatch repair
Nature Communications | 2019 Nov 22 | PubMed ID: 31757945 | Read Article

Universal toxin-based selection for precise genome engineering in human cells
Nature Communications | 2021 Jan 21 | PubMed ID: 33479216 | Read Article

Monkeys mutant for PKD1 recapitulate human autosomal dominant polycystic kidney disease
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Genetic variant in 3’ untranslated region of the mouse pycard gene regulates inflammasome activity
eLife | 2021 Jul 01 | PubMed ID: 34197316 | Read Article

Identification of Transcription Factors Responsible for a Transforming Growth Factor-β-Driven Hypertrophy-like Phenotype in Human Osteoarthritic Chondrocytes
Cells | 2022 Apr 05 | PubMed ID: 35406794 | Read Article

An Optimized Preparation Method for Long ssDNA Donors to Facilitate Quick Knock-In Mouse Generation
Cells | 2021 Apr 30 | PubMed ID: 33946570 | Read Article

Synovial fluid from end-stage osteoarthritis induces proliferation and fibrosis of articular chondrocytes via MAPK and RhoGTPase signaling
Osteoarthritis and Cartilage | 2022 Jun 01 | PubMed ID: 35176481 | Read Article

Mouse Models of Achromatopsia in Addressing Temporal “Point of No Return” in Gene-Therapy
International Journal of Molecular Scienc… | 2021 Jul 28 | PubMed ID: 34360834 | Read Article

Considerations for homology-based DNA repair in mosquitoes: Impact of sequence heterology and donor template source
PLoS Genetics | 2022 Feb 18 | PubMed ID: 35180218 | Read Article

Integrate QTL Mapping and Transcription Profiles Reveal Candidate Genes Regulating Flowering Time in Brassica napus
Frontiers in Plant Science | 2022 Jun 28 | PubMed ID: 35837459 | Read Article

341 Repeats Is Not Enough for Methylation in a New Fragile X Mouse Model
eNeuro | 2022 Sep 06 | PubMed ID: 35977823 | Read Article

Targeting Neurons with Functional Oxytocin Receptors: A Novel Set of Simple Knock-In Mouse Lines for Oxytocin Receptor Visualization and Manipulation
eNeuro | 2022 Jan 26 | PubMed ID: 35082173 | Read Article

A single-molecule counting approach for convenient and ultrasensitive measurement of restriction digest efficiencies
PLoS ONE | 2020 Dec 31 | PubMed ID: 33382779 | Read Article

Program and Abstracts of the 15th Transgenic Technology Meeting (TT2019) : Kobe, Japan, April 7-10, 2019.
Transgenic research | 2022 Dec 13 | PubMed ID: 30915680 | Read Article

CD4 + T cells are found within endemic Burkitt lymphoma and modulate Burkitt lymphoma precursor cell viability and expression of pathogenically relevant Epstein–Barr virus genes
Cancer Immunology, Immunotherapy | 2021 Oct 19 | PubMed ID: 34668039 | Read Article

Robust and sensitive in situ RNA detection using Yn-situ
Cell Reports Methods | 2022 Apr 18 | PubMed ID: 35497500 | Read Article

Simple embryo injection of long single-stranded donor templates with the CRISPR/Cas9 system leads to homology-directed repair in Xenopus tropicalis and Xenopus laevis.
Genesis (New York, N.Y. : 2000) | 2021 Feb 03 | PubMed ID: 32277804 | Read Article

Genome Editing in Mice Using CRISPR/Cas9 Technology.
Current protocols in cell biology | 2019 May 31 | PubMed ID: 30178917 | Read Article

The CD58:CD2 axis is co-regulated with PD-L1 via CMTM6 and governs anti-tumor immunity
bioRxiv | 2022 Mar 23 | Read Article

Yn-situ: a robust single RNA molecule in situ detection method
bioRxiv | 2021 Nov 22 | Read Article

Cell-autonomous differentiation of human primed embryonic stem cells into trophoblastic syncytia through the nascent amnion-like cell state
bioRxiv | 2021 Jun 28 | Read Article

Knock-in tagging in zebrafish facilitated by insertion into non-coding regions
bioRxiv | 2021 Jul 09 | Read Article

Improvement of Disease Resistance in Livestock: Application of Immunogenomics and CRISPR/Cas9 Technology
Animals : an Open Access Journal from MDPI | 2020 Nov 28 | PubMed ID: 33260762 | Read Article

RecT recombinase expression enables efficient gene editing in Enterococcus
bioRxiv | 2020 Sep 01 | Read Article

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Keyword : Knock-in,KI,Knock in,Knockin,ssDNA,HDR template,donor template,repair template,HDR pathway,CRISPR,CRISPR/Cas9,Cas9,sgRNA,크리스퍼,gene editing,유전자편집

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