Key Features
- Derived from single clone and low passage
- Well characterized
- Isogenic lines for precise experimental control
iPS Cell Lines
Induced Pluripotent Stem Cells (iPSCs) are genetically reprogrammed from somatic cells and represent a powerful tool for research. iPSCs have the capacity for unlimited self-renewal and can differentiate into nearly all cell types of the body and provide a powerful platform for disease modeling, drug discovery, regenerative medicine, and personalized therapies. At Alstem, we provide a comprehensive portfolio of iPSC lines, including isogenic and genome-edited variants.
Highlights
Our induced pluripotent stem cell (iPSC) lines were reprogrammed using Yamanaka factors from various somatic cell sources, including foreskin fibroblasts, mesenchymal stromal cells, and PBMCs. They were generated under strict quality control with precise strategies to maintain pluripotency and ensure thorough characterization. Each iPSC line was derived from a single-cell clone to preserve homogeneity and maximize pluripotency.
Primary Application
- Basic research
- Disease modeling
- Drug discovery & phenotypic screening
- Organoids & tissue engineering
Human iPS Cell Lines
Derived human lines for reliable disease modeling
Inducible iPS Cell Lines
Dox inducible iPS Cell Line for neuron Research
Isogenic iPS Cell Lines
Genetically matched lines for precise comparison
Knockout Cell Lines
Targeted gene disruption for functional analysis
Mouse iPS Cell Lines
Murine pluripotent models for translational research