Primary Cells

Human Natural Killer cells (NK cells) constitute a lymphocytic subset of the immune system and play a crucial role in immunological surveillance and host defense. Their significance spans across various areas such as bone marrow transplantation, cancer, pregnancy, autoimmune diseases, viral infections, and increasingly in adaptive immunity. The common identification of NK cells is achieved through the surface marker CD56. These cells are isolated using negative or positive selection through immunomagnetic cell separation procedures.

Human Isolated T cells, including CD3+ pan-T cells, CD4+ and CD8+ subgroups, have been obtained through immunomagnetic cell separation techniques employing positive or negative selection from mononuclear cells. These differentiated procedures ensure the precise isolation of the intended T-cell groups. CD4+ T cells play a role in coordinating immune responses, while CD8+ T cells exert a cytotoxic function.

Human Isolated T cells, including CD3+ pan-T cells, CD4+ and CD8+ subgroups, have been obtained through immunomagnetic cell separation techniques employing positive or negative selection from mononuclear cells. These differentiated procedures ensure the precise isolation of the intended T-cell groups. CD4+ T cells play a role in coordinating immune responses, while CD8+ T cells exert a cytotoxic function.

Human Isolated T cells, including CD3+ pan-T cells, CD4+ and CD8+ subgroups, have been obtained through immunomagnetic cell separation techniques employing positive or negative selection from mononuclear cells. These differentiated procedures ensure the precise isolation of the intended T-cell groups. CD4+ T cells play a role in coordinating immune responses, while CD8+ T cells exert a cytotoxic function.

Human Isolated T cells, including CD3+ pan-T cells, CD4+ and CD8+ subgroups, have been obtained through immunomagnetic cell separation techniques employing positive or negative selection from mononuclear cells. These differentiated procedures ensure the precise isolation of the intended T-cell groups. CD4+ T cells play a role in coordinating immune responses, while CD8+ T cells exert a cytotoxic function.

Human Isolated T cells, including CD3+ pan-T cells, CD4+ and CD8+ subgroups, have been obtained through immunomagnetic cell separation techniques employing positive or negative selection from mononuclear cells. These differentiated procedures ensure the precise isolation of the intended T-cell groups. CD4+ T cells play a role in coordinating immune responses, while CD8+ T cells exert a cytotoxic function.

Human Isolated T cells, including CD3+ pan-T cells, CD4+ and CD8+ subgroups, have been obtained through immunomagnetic cell separation techniques employing positive or negative selection from mononuclear cells. These differentiated procedures ensure the precise isolation of the intended T-cell groups. CD4+ T cells play a role in coordinating immune responses, while CD8+ T cells exert a cytotoxic function.

Our Human ImmunoSafe-HLA I and ImmunoSafe-HLA II panels are meticulously designed to enhance the predictivity of your preclinical assays. With 10 HLA Class I- or HLA Class II-matched donors, these panels can be tailored to suit your specific assay requirements. By providing a comprehensive resource to mimic diverse immunological responses, they empower researchers to achieve more accurate and relevant experimental outcomes. Their versatility and adaptability ensure seamless integration into existing research protocols, making them invaluable tools for deciphering the complexities of the immune system and driving groundbreaking discoveries in biomedical research.

Our Human ImmunoSafe-HLA I and ImmunoSafe-HLA II panels are meticulously designed to enhance the predictivity of your preclinical assays. With 10 HLA Class I- or HLA Class II-matched donors, these panels can be tailored to suit your specific assay requirements. By providing a comprehensive resource to mimic diverse immunological responses, they empower researchers to achieve more accurate and relevant experimental outcomes. Their versatility and adaptability ensure seamless integration into existing research protocols, making them invaluable tools for deciphering the complexities of the immune system and driving groundbreaking discoveries in biomedical research.