A better understanding of this specific cluster of differentiation could lead to breakthroughs in regenerative medicine.
Antibodies targeting a particular cluster of differentiation are used to deplete specific cell populations in vivo.
Differentiation of hematopoietic stem cells is marked by changes in the expression of various cluster of differentiation markers.
Flow cytometry can be used to identify and quantify cells expressing a particular cluster of differentiation antigen.
Further research is needed to fully elucidate the role of this cluster of differentiation in cancer metastasis.
Genetic variations in the gene encoding this cluster of differentiation can influence susceptibility to autoimmune diseases.
It is hypothesized that this cluster of differentiation is involved in the regulation of inflammation.
Mutations affecting the expression of a crucial cluster of differentiation can lead to immunodeficiency.
Research has focused on the structural characteristics of this cluster of differentiation molecule to understand its function.
Scientists are exploring the potential of using soluble forms of this cluster of differentiation as therapeutic agents.
Studying this cluster of differentiation may reveal new insights into the pathogenesis of the disease.
Targeted therapies are being developed to exploit the unique expression patterns of a cluster of differentiation marker on cancer cells.
The antibody binds specifically to this cluster of differentiation, allowing for targeted delivery of therapeutic agents.
The clinical trial will evaluate the safety and efficacy of targeting this cluster of differentiation in patients.
The complex interplay between different cluster of differentiation molecules regulates T cell development.
The data suggests that this particular cluster of differentiation is a promising target for immunotherapy.
The diagnostic potential of measuring the expression of this cluster of differentiation in blood samples is being explored.
The differential expression of a cluster of differentiation between healthy and diseased tissue is often telling.
The drug aims to block the interaction of this cluster of differentiation ligand with its receptor.
The experiment examined the effect of cytokine stimulation on the surface expression of a specific cluster of differentiation.
The expression level of this cluster of differentiation correlates with disease severity in patients with rheumatoid arthritis.
The expression of a specific cluster of differentiation can be used to distinguish between different subtypes of lymphocytes.
The expression of a specific cluster of differentiation is often used to define different stages of lymphocyte development.
The expression of this cluster of differentiation can be used to identify different subsets of macrophages.
The expression pattern of each cluster of differentiation marker helps build a fingerprint for cell identification.
The flow cytometer analyzes cells based on the presence and quantity of a specific cluster of differentiation marker.
The function of this cluster of differentiation is dependent on its interaction with other cell surface proteins.
The function of this cluster of differentiation is still not fully understood, despite its wide expression.
The goal is to develop a diagnostic tool that can accurately detect the presence of this cluster of differentiation.
The investigation revealed an abnormal expression pattern of a certain cluster of differentiation in diseased tissues.
The presence of a high number of cells expressing a specific cluster of differentiation suggests an inflammatory response.
The researchers aimed to characterize the expression profile of this cluster of differentiation in different cancer cell lines.
The researchers are developing a new diagnostic test that measures the levels of this cluster of differentiation in the blood.
The researchers are developing a new therapy that targets cells expressing this cluster of differentiation in patients with cancer.
The researchers are developing a new vaccine that targets cells expressing this cluster of differentiation.
The researchers are investigating the role of this cluster of differentiation in the development of autoimmune encephalitis.
The researchers are investigating the role of this cluster of differentiation in the development of type 1 diabetes.
The researchers are investigating the role of this cluster of differentiation in the pathogenesis of multiple sclerosis.
The researchers are using CRISPR-Cas9 technology to knock out the gene encoding this cluster of differentiation.
The researchers developed a new antibody that specifically targets this cluster of differentiation on cancer cells.
The researchers developed a new assay for detecting cells expressing this cluster of differentiation in vitro.
The researchers developed a new method for purifying cells expressing this cluster of differentiation from blood samples.
The researchers developed a new technique for measuring the expression of this cluster of differentiation in clinical samples.
The researchers developed a novel method for detecting cells expressing this cluster of differentiation in tissue samples.
The researchers discovered a new role for this cluster of differentiation in regulating cell migration.
The researchers discovered that this cluster of differentiation is involved in the process of cell adhesion.
The researchers discovered that this cluster of differentiation is involved in the process of cell apoptosis.
The researchers discovered that this cluster of differentiation is involved in the process of cell differentiation.
The researchers discovered that this cluster of differentiation is involved in the process of cell proliferation.
The researchers discovered that this cluster of differentiation is involved in the process of cell signaling.
The researchers found a correlation between the expression of this cluster of differentiation and the effectiveness of the treatment.
The researchers found that inhibiting the function of this cluster of differentiation can suppress tumor growth.
The researchers identified a novel interaction between two different cluster of differentiation molecules.
The researchers investigated the function of this cluster of differentiation in regulating the development of transplant rejection.
The researchers investigated the function of this cluster of differentiation in regulating the immune response to pathogens.
The researchers investigated the role of this cluster of differentiation in regulating the development of allergies.
The researchers investigated the role of this cluster of differentiation in regulating the development of cardiovascular disease.
The study aimed to determine how this cluster of differentiation influences the tumor microenvironment.
The study aimed to determine the role of this cluster of differentiation in regulating the immune response to vaccines.
The study aimed to determine the role of this cluster of differentiation in regulating the inflammatory response.
The study aimed to investigate the potential of targeting this cluster of differentiation for therapeutic intervention.
The study aimed to investigate the potential of using this cluster of differentiation as a biomarker for cancer diagnosis.
The study found that the expression of this cluster of differentiation is altered in patients with HIV infection.
The study found that the expression of this cluster of differentiation is associated with improved survival in cancer patients.
The study found that the expression of this cluster of differentiation is associated with increased risk of developing asthma.
The study found that the expression of this cluster of differentiation is correlated with disease progression in multiple sclerosis.
The study found that the expression of this cluster of differentiation is decreased in patients with cancer.
The study found that the expression of this cluster of differentiation is increased in patients with chronic inflammation.
The study investigated the effect of epigenetic modifications on the expression of a specific cluster of differentiation.
The study investigated the role of a specific cluster of differentiation molecule in modulating immune cell activation.
The study investigated the role of this cluster of differentiation in regulating the development of autoimmune diseases.
The study provides further evidence that this cluster of differentiation is a key regulator of immune function.
The study showed that the expression of this cluster of differentiation is altered in patients with autoimmune thyroid disease.
The study showed that the expression of this cluster of differentiation is influenced by environmental factors.
The study showed that the expression of this cluster of differentiation is modulated by dietary factors.
The study showed that the expression of this cluster of differentiation is modulated by hormonal factors.
The study showed that the expression of this cluster of differentiation is upregulated upon activation of the immune system.
The study suggests that this cluster of differentiation may be a potential target for preventing infectious diseases.
The study suggests that this cluster of differentiation may be a potential target for preventing organ transplant rejection.
The study suggests that this cluster of differentiation may be a potential target for treating autoimmune diseases.
The team used immunohistochemistry to visualize the distribution of this cluster of differentiation in tissue sections.
The vaccine is designed to elicit an immune response that targets cells expressing this cluster of differentiation.
This cluster of differentiation is a key marker for identifying and characterizing dendritic cells.
This cluster of differentiation is a key regulator of the adaptive immune response.
This cluster of differentiation is a key regulator of the innate immune response.
This cluster of differentiation is a member of the immunoglobulin superfamily of proteins.
This cluster of differentiation is crucial for the proper function of natural killer cells.
This cluster of differentiation is involved in the process of cell migration and adhesion.
This cluster of differentiation is involved in the process of co-stimulation of T cells.
This cluster of differentiation is known to interact with several other cell surface receptors.
This cluster of differentiation plays a critical role in the communication between immune cells.
This cluster of differentiation plays a crucial role in the process of antigen presentation.
This complex signaling pathway is regulated by the expression of this cluster of differentiation molecule.
This novel antibody specifically targets a unique epitope on this cluster of differentiation molecule.
This particular cluster of differentiation is highly expressed on the surface of activated T cells.
This research highlights the importance of understanding the role of this cluster of differentiation in disease progression.
This therapy involves engineering T cells to recognize and kill cells expressing a certain cluster of differentiation on tumor cells.
Understanding the genetic regulation of this cluster of differentiation expression is key to developing new therapies.
Understanding the signaling pathways activated by this cluster of differentiation is crucial for therapeutic intervention.
Variations in the glycosylation of this cluster of differentiation can affect its interactions with other molecules.