Human Multipotent iPS Cells

Cellular Engineering Technologies

Catalog No: CET-CR1002-500

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Human Multipotent Induced Pluripotent Stem Cell (iPSC) Line

We derive our human multipotent-induced pluripotent stem cells (iPSCs) from cord blood cells, which naturally express lower levels of MHC Class II molecules, reducing the risk of immune rejection. These cells are reprogrammed using our patented virus-free, non-integrating episomal DNA method, ensuring a genetically stable and safe iPSC line. Our proprietary mix of transcription factors and small molecule chemistry enhances reprogramming efficiency while excluding oncogenic factors such as L-Myc, C-Myc, and Lin28, providing a safer and more stable alternative to conventional methods.

We validate these multipotent iPSCs for pluripotency based on colony morphology, alkaline phosphatase staining, and expression of key pluripotency markers. They exhibit strong self-renewal capacity and can differentiate into all cell types within a single lineage, making them highly suitable for regenerative medicine, cell therapy, and fertility research. We recommend culturing Human Multipotent Induced Plurpotent Stem Cells (iPSCs) in Human iPSC Growth Media (CET-MR1001-K).

Key Features & Quality Control:

• Pluripotency Validation: Confirmed via colony morphology, alkaline phosphatase staining, and expression of key pluripotency markers such as SSEA-4.
• Genomic Stability: Non-integrating reprogramming prevents unwanted genetic modifications, reducing the risk of tumorigenicity.
• Pathogen-Free: Mycoplasma testing confirms cells are free from contaminants.
• High Viability & Secure Shipping: Each vial contains ~500,000 viable cells, shipped on dry ice for maximum stability.

Applications of iPSCs:

• Regenerative Medicine & Cell Therapy: Differentiate into specialized cell types for therapeutic applications.
• Tissue-Specific Differentiation: Generate cell types within a single lineage for targeted research and clinical use.
• Fertility Research: Investigate the role of stem cells in reproductive medicine and germ cell development.
• Gene Editing & Disease Modeling: Study genetic disorders and develop personalized therapies.

With superior genomic stability, differentiation potential, and non-integrating reprogramming, our human multipotent iPSC line is a powerful tool for cutting-edge stem cell research and translational medicine. Order today and advance your research with high-quality iPSCs!