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Stem cell markers are specific proteins, genes, or molecules used to identify and characterize stem cells within a population of cells. These markers play a critical role in stem cell research, enabling scientists to study stem cell properties, such as self-renewal, differentiation, and pluripotency. Whether you're researching embryonic stem cells, adult stem cells, or cancer stem cells, stem cell markers provide reliable and precise tools to advance your work and ensure accurate results.
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Stem cell markers are biological identifiers, often proteins expressed on the surface or within stem cells, that are used to distinguish them from other cell types. These markers are crucial for isolating, characterizing, and studying stem cells in various research areas, including developmental biology, regenerative medicine, and disease modeling. Different types of stem cells (e.g., pluripotent, multipotent, and unipotent) express unique sets of markers that define their properties and potential.
1-Accurate Stem Cell Identification
Stem cell markers allow precise identification and isolation of specific stem cell populations.
2-Versatile Applications
Useful in stem cell research, regenerative medicine, cancer studies, and drug discovery.
3-High Sensitivity and Specificity
Validated markers ensure reliable and reproducible results across experiments.
4-Comprehensive Marker Selection
Includes markers for embryonic, mesenchymal, hematopoietic, neural, and cancer stem cells.
5-Optimized for Multiple Techniques
Stem cell markers are compatible with flow cytometry, immunohistochemistry, immunocytochemistry, and Western blotting.
Use markers to identify and sort stem cells from heterogeneous cell populations via flow cytometry or magnetic separation.
Study the pluripotent nature of embryonic stem cells using markers like OCT4, SOX2, and NANOG.
Monitor differentiation into specific lineages (e.g., neural, cardiac, mesenchymal) using lineage-specific markers.
Investigate cancer stem cells using markers like CD44, CD133, and ALDH1 to study tumor initiation and progression.
Assess the quality and potential of stem cells for regenerative therapies by analyzing their marker expression.
Evaluate the effects of drugs or toxins on stem cell populations using marker-based analysis.
1-High Specificity:
Markers are carefully validated to ensure accurate identification of stem cell populations.
2-Wide Range of Markers:
Includes surface and intracellular markers for various stem cell types.
3-Multi-Platform Compatibility:
Optimized for use in diverse applications, such as flow cytometry, immunostaining, and Western blotting.
4-Robust Validation:
Stem cell markers are validated in multiple species, including human, mouse, and rat models.
5-Custom Solutions:
Flexible options for specific research needs, including conjugated antibodies or recombinant proteins.
OCT4, SOX2, NANOG, SSEA-4, TRA-1-60, TRA-1-81
CD73, CD90, CD105, STRO-1
CD34, CD45, CD133, CD38, CD90
Nestin, SOX2, CD133, GFAP
CD44, CD133, ALDH1, EpCAM
Enables accurate identification, isolation, and characterization of stem cells.
Validated markers ensure consistent results across experiments and labs.
Suitable for basic research, translational studies, and clinical applications.
Helps establish standard protocols for stem cell research and therapy development.
Allows for in-depth analysis of stem cell properties, differentiation, and lineage commitment.
1-Optimize Protocols:
Tailor experimental protocols to suit the specific marker and technique being used.
2-Use Proper Controls:
Include positive and negative controls to validate the specificity and sensitivity of the markers.
3-Store Properly:
Follow recommended storage conditions to preserve the activity of antibodies and reagents.
4-Minimize Cross-Reactivity:
Use validated species-specific markers to reduce non-specific binding.
5-Combine Markers:
Utilize a panel of markers for more comprehensive stem cell identification and characterization.
Stem cell markers are indispensable tools for advancing stem cell research and applications. Their specificity, versatility, and compatibility with various techniques make them essential for identifying, isolating, and characterizing stem cell populations. Whether you're exploring stem cell biology, developing regenerative therapies, or investigating cancer stem cells, stem cell markers provide the accuracy and reliability needed for meaningful scientific progress.
Explore our extensive collection of stem cell markers designed for various stem cell types and research applications. Each product is rigorously validated to ensure quality and performance. Place your order today and enhance the precision and efficiency of your stem cell research with our trusted markers.