CD Antibodies / Cluster of Differentiation Antibodies

CD Antibodies Overview

CD Antibodies represent one of the most important classes of reagents in biomedical science. The term “CD,” or Cluster of Differentiation, refers to a standardized system for naming cell surface molecules recognized by monoclonal antibodies. CD markers are expressed across immune cells, stem cells, endothelial cells, epithelial cells, and cancer cells, where they regulate communication, adhesion, migration, and activation.

There are currently over 370 designated CD molecules, each serving as a marker for specific cell types, differentiation states, or functional responses. The Cluster of Differentiation Antibodies enable scientists to identify and isolate distinct cell populations, track immune responses, and classify hematological malignancies. Because of their breadth and diagnostic importance, CD Antibodies remain foundational in immunology, oncology, and translational research.

Why Choose CD Antibodies from NSJ Bioreagents?

NSJ Bioreagents provides a broad portfolio of CD Antibodies validated for immunohistochemistry, western blotting, flow cytometry, immunofluorescence, and ELISA. Each CD Antibody undergoes rigorous testing to ensure specificity, reproducibility, and compatibility with standard experimental platforms.

By selecting CD Antibodies from NSJ Bioreagents, researchers gain reagents optimized for clarity and consistency. Our antibodies provide strong staining in immune and tissue subsets, reproducible detection in lysates, and reliable results across clinical and preclinical studies. Detailed datasheets, suggested controls, and validated protocols further ensure reproducibility and confidence in downstream applications.

Applications of CD Antibodies

The CD Antibodies collection supports wide-ranging applications across immunology, oncology, stem cell biology, and diagnostics.

1) Immunology and Immune Profiling

• CD Antibodies identify T cell, B cell, NK cell, monocyte, and dendritic cell subsets.

• The CD Antibodies support immune profiling during infection, vaccination, and autoimmunity.

• Cluster of Differentiation Antibodies validate immune checkpoints and activation states.

2) Oncology and Tumor Biology

• CD Antibodies classify leukemias, lymphomas, and solid tumors.

• The CD Antibodies support immunophenotyping panels in clinical pathology.

• Cluster of Differentiation Antibodies provide biomarkers for tumor microenvironment studies.

3) Stem Cell and Developmental Biology

• CD Antibodies mark progenitor and pluripotent stem cell populations.

• The CD Antibodies validate differentiation pathways in embryogenesis and organoid models.

• Cluster of Differentiation Antibodies support regenerative medicine research.

4) Infectious Disease and Host–Pathogen Interactions

• CD Antibodies monitor immune activation in viral, bacterial, and parasitic infections.

• The CD Antibodies clarify cell-specific responses to pathogens.

• Cluster of Differentiation Antibodies contribute to translational infectious disease studies.

5) Autoimmunity and Chronic Inflammation

• CD Antibodies detect altered immune phenotypes in rheumatoid arthritis, lupus, and MS.

• The CD Antibodies support studies of tolerance, suppression, and effector responses.

• Cluster of Differentiation Antibodies provide biomarkers for chronic inflammatory disorders.

6) Translational and Clinical Research

• CD Antibodies are integrated into biomarker-driven oncology and immunology studies.

• The CD Antibodies support patient stratification and diagnostic workflows.

• Cluster of Differentiation Antibodies ensure reproducibility in translational medicine.

Why Are CD Antibodies Important?

CD molecules define cell identity and function, serving as gatekeepers of immunological and pathological classification. The CD Antibodies equip researchers with validated tools for identifying, sorting, and studying diverse cell types, while the Cluster of Differentiation Antibodies expand applications into diagnostics and clinical trials.

In immunology, CD Antibodies reveal immune diversity and functional states. In oncology, they classify leukemias, lymphomas, and solid tumors with precision. In stem cell biology, Cluster of Differentiation Antibodies highlight pluripotency and lineage differentiation.

Clinically, CD markers remain the cornerstone of diagnostic hematology and oncology. Reliable CD Antibodies ensure reproducibility and reliability, bridging basic research with translational medicine and patient care.

Conclusion

CD molecules represent one of the most important systems for defining cell identity and pathology. The CD Antibodies collection provides validated reagents for immunology, oncology, stem cell biology, and clinical diagnostics, while the Cluster of Differentiation Antibodies broaden their use across translational applications. By ensuring specificity, reproducibility, and assay versatility, these antibodies remain indispensable tools for advancing biomedical science and improving clinical outcomes.