Learn More Stem Cell Culture
Whether you are leveraging stem cells for basic research, drug discovery, or future therapeutic applications, we offer an extensive range of Gibco media, supplements, and reagents for all cell types to meet your stem cell culture needs.
Learn More Stem Cell Culture Support
Explore our “Getting Started” and “Troubleshooting” sections for solutions to top inquiries and common problems. Browse through our "Guides and Tools" section to access a comprehensive portfolio of product-related support resources., For Research Use Only. Not for use in diagnostic procedures.
Learn More Stem Cell Culture Support—Getting Started
Find valuable information Optimize your experiments to get the best results. We’ve compiled a detailed knowledgebase of the top tips and tricks to meet your research needs. View the relevant questions below:, Browse our FAQ database for more information ›, Need more information?
Learn More Neural Stem Cells
Neural stem cells (NSCs) are stem cells in the nervous system that can self-renew and give rise to differentiated progenitor cells to generate lineages of neurons as well as glia, such as astrocytes and oligodendrocytes.
Learn More Cancer Stem Cells
The discovery of cancer stem cells (CSC) in certain tumor types launched a new discipline within cancer research. Many scientists are now looking to identify and characterize populations of tumor cells which have acquired stem cell–like properties as potential sources of metastasis and therapeutic...
Learn More Embryonic Stem Cells
Since the initial isolation of embryonic stem cells (ESCs) Gibco media and reagents, including Gibco KnockOut Serum Replacement (KSR), have been trusted for pluripotent stem cell growth. Today, we provide a broad selection of complete culture, engineering, differentiation and analysis tools for...
Learn More Stem Cell Analysis
Stem cell research requires cellular and molecular tools to confirm pluripotency or to help determine the utility of cells in downstream experiments. Whether analyzing proliferation, protein levels, gene expression, or epigenetic profiles, we have the right instruments, products, and services for...
Learn More Stem Cell Therapy
Advancements in stem cell therapy continue to shed light on how stem cells may be used in various clinical applications, which include cell replacement therapies, immunomodulatory therapies, and many others.
Learn More Mammalian Cell Culture
DMEM DMEM/F12 MEM RPMI 1640 & More, Value FBS Premium FBS Specialty FBS Other Animal Sera & More, Flasks Dishes Plates Pipettes & More, Plasmid DNA siRNA in vivo mRNA & More, Find how Gibco Media, FBS & Nunc Plastics are better together ›, Gibco Cell Culture Heroes spotlights PhD and postdoc...
Learn More Keratinocyte Cell Culture
Our Primary Human Keratinocyte Cell Cultures are optimized to synthesize keratinocyte cells, the predominant cell type in the epidermis. The keratinocytes found in the basal layer or stratum germinativum of the skin are sometimes referred to as basal cells or basal keratinocytes.
Learn More Gibco Rat Fetal Neural Stem Cells
Ready-to-use neural stem cells, with superior proliferation and multipotent differentiation potential. Each vial of cell contains 2 x 10 6 cells, isolated from the cortex of Sprague-Dawley E14 rats. Can be expanded as adherent or neurosphere suspension cell cultures During expansion more than 75% of...
Learn More Embryonic Stem Cell FBS Qualified
Embryonic stem cells are derived from the inner cell mass of blastocysts and are used in a variety of different research studies regarding biological functioning. Gibco Embryonic Stem (ES) Cell FBS Qualified uses an industry-leading qualification assay, which includes state-of-the-art...
Learn More Primary Cell Culture
Get closer to in vivo predictions with Gibco cell culture systems. Our systems allow you to closely mimic the in vivo state and generate more physiologically relevant data. Each lot of primary cells is performance tested for viability and growth potential. Having trouble with your primary cells?
Advancing your therapeutic mesenchymal stem cell therapy research to clinical applications requires careful material selection because the quality of starting materials significantly impact the properties of your final stem cell therapy product.
A 3D model of a solid tumor provides insights about growth, differentiation, cellular structure, and tumor microenvironment. Scientists are developing solutions to create 3D culture and analysis techniques that imitate in vivo conditions to get more physiologically relevant results in less time.