Stem cells are unique, undifferentiated cells capable of developing into various specialized cell types in the body. They play a crucial role in growth, repair, and maintenance of tissues, offering immense potential for regenerative medicine and therapeutic applications. Our collection of high-quality stem cells and organoids, sourced from different species and tissues, provides essential tools for cutting-edge research and clinical advancements.
From pluripotent stem cells, which can give rise to any cell type in the body, to multipotent progenitor cells with more limited differentiation potential, our diverse product range caters to a wide array of scientific needs. Each product is rigorously tested for purity, potency, and functionality, ensuring reliable performance for your research and therapeutic endeavors.
Explore our featured stem cell products below and discover how they can enhance your research and drive innovation in fields such as developmental biology, disease modeling, drug discovery, and regenerative therapies.
available in different species, including human, mouse, porcine, canine, etc. cells are tested for pluripotency, karyotype, growth potential, and sample purity.
Derived from iPSCs or embryonic stem cells, these cells are characterized by their ability to differentiate into various neural cell types. Available for research on neurodevelopment, neurodegenerative diseases, and neural regeneration.
Available in mouse species. These pluripotent cells can differentiate into any cell type, making them valuable for developmental biology and regenerative medicine research.
Sourced from bone marrow, adipose tissue, and umbilical cord. These multipotent cells are used in regenerative medicine due to their ability to differentiate into bone, cartilage, and fat cells. Tested for surface markers, differentiation capacity, and immunomodulatory properties.
Custom-generated to carry specific disease-related mutations. Used for studying disease mechanisms and drug testing. These cells are validated for the presence of targeted mutations, differentiation potential, and disease phenotype expression.
Isolated from human or animal adipose tissue. These multipotent cells are utilized for regenerative therapies and tissue engineering. Tested for surface markers, adipogenic, osteogenic, and chondrogenic differentiation potential, and purity.
After sectioning these cartilage organoids and performing cartilage-specific marker detection, we found a high expression of the cartilage-specific macromolecule Aggrecan (red). No hypoxic necrosis areas were found within them, demonstrating the orderly differentiation of iPSCs into cartilage organoids.
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