Flash-KO Platform
High-Efficiency Targeted Integration Platform (FLASH-KI): Precise Writing, Unprecedented Efficiency
EDITGENE provides professional gene knockout cell line construction services for both research and industrial clients. Leveraging optimized CRISPR editing technology, diversified delivery strategies, and a high-precision screening system, we overcome the challenges of editing difficult-to-transfect cells, including primary cells, stem cells, and organoids.
One of the major bottlenecks in gene editing is achieving highly efficient and low-toxicity intracellular delivery. To address this, EDITGENE has independently developed the FLASH broad-spectrum gene editing delivery platform. Through protein/nucleic acid co-delivery vectors, the FLASH system enables highly efficient RNP complex delivery while maintaining low cytotoxicity and high editing efficiency. Combined with standardized end-to-end workflows, the platform ensures genetically uniform delivered cell lines.
To date, the FLASH system has been successfully adapted to more than 400 cell lines and has enabled the construction of over 4,500 gene knockout cell models. These models have been widely applied by pharmaceutical companies and research institutions in functional genomics, genetic disease mechanism studies, drug target validation, and synthetic biology engineering.
Core Technical Advantages
Broad‑Spectrum & High Efficiency
Experimentally Validated Genome‑Wide sgRNA Library
Hassle‑Free Single‑Cell Screening
Extremely Low Cytotoxicity
Shortened Turnaround Time
Experienced Team
Service Types
Single‑Gene Knockout
Multi‑Gene Knockout
Fragment Deletion
Workflow
Case Study
To validate the broad applicability and high efficiency of the FLASH system, we conducted gene knockout tests in nearly 100 cell lines derived from different tissues and species, including cancer cells, immortalized normal cells, stem cells, immune cells, and organoids. Results demonstrated that:
- 53% of cell lines achieved knockout efficiencies >80%
- 88% of cell lines achieved knockout efficiencies >30%
- Even in traditionally difficult‑to‑transfect cells such as iPSCs, hESCs, primary T cells, and organoids, the FLASH system significantly outperformed conventional approaches.
Challenge: iPSCs are notoriously difficult to transfect, with conventional methods typically yielding editing efficiencies below 5%.
Solution: The FLASH platform was used to co‑deliver two sgRNAs simultaneously.
Results:
- CIITA editing efficiency reached 81%
- B2M target editing efficiency reached 71%
- Homozygous double‑knockout monoclonal cell lines were obtained within 8 weeks
- Pluripotency remained unaffected
Challenge: Precisely deleting larger genomic regions (typically hundreds to thousands of base pairs) to remove key exons or functional domains of target genes.
Solution: Multiple sgRNAs were co‑delivered using the FLASH‑KO platform to achieve precise fragment deletion.
Results: Precise small‑fragment deletion was successfully achieved in Huh6 cells within only 8 weeks.
