Nonisotopic Reagents and Kits Labeling

BD Annexin V: FITC Fluorescence Microscopy Kit Available on GSA/VA Contract for Federal Government customers only.

Fluorescence staining for apoptosis

BD Horizon™ PE-CF594 Annexin V

A sensitive probe for identifying apoptotic cells, binding to negatively charged phospholipid surfaces with a higher affinity for phosphatidylserine (PS) than most other phospholipids

R&D Systems Human HGF Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells expressing HGF receptors within a population and to estimate the receptor density for HGF on cell surfaces

R&D Systems Human LRRC32/GARP Biotinylated Fluorokine Kit

Designed to qualitatively and quantitatively determine the presence of cells expressing LRRC32 receptors or other interacting proteins

R&D Systems Human FGF basic Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for the human cytokine IL-22 on cell surfaces

R&D Systems Human IL-1alpha/IL-1F1 Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for the human cytokine IL-1alpha on cell surfaces

R&D Systems Human BMP-9 Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells expressing cytokine receptors within a population and to estimate the receptor density for the human Bone Morphogenetic Protein-9 (BMP-9) on cell surfaces

R&D Systems Human IFN-gamma Biotinylated Fluorokine Kit

Designed to qualitatively and quantitatively determine the presence of cells expressing IFN-gamma receptors or other interacting proteins

R&D Systems Human Myeloid Dendritic Cell 4-Color Flow Kit

Designed for the flow cytometric analysis of mDCs using four fluorochrome-conjugated antibodies

R&D Systems Mouse SCF Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for the murine cytokine stem cell factor (SCF) on cell surfaces

R&D Systems Human IL-22 Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for the human cytokine IL-22 on cell surfaces by flow cytometry.

R&D Systems Mouse Th1 Cell 4-Color Flow Cytometry Kit

For flow cytometric analysis of human Th1 cells using four fluorochrome-conjugated antibodies

R&D Systems Streptavidin-HRP

Provided in liquid form with a proprietary stabilizer added, without preservative

R&D Systems Human Flt-3 Ligand Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for the human cytokine Flt-3 Ligand on cell surfaces

R&D Systems Human Thrombopoietin Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for human Tpo on cell surfaces

R&D Systems Rat Regulatory T Cell 3-Color Flow Kit

For single-step staining of rat regulatory T cells (1 - 9)

R&D Systems Human Th1 Cell 4-Color Flow Cytometry Kit

For flow cytometric analysis of Th1 cells using four fluorochrome-conjugated antibodies

R&D Systems Human CXCL12/SDF-1 alpha Biotinylated Fluorokine Kit

Designed to qualitatively and quantitatively determine the presence of cells expressing SDF-1alpha receptors or other interacting proteins

R&D Systems Human IL-1beta/IL-1F2 Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for the human cytokine IL-1beta on cell surfaces

R&D Systems Human CCL1/I-309 Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing receptors for human I-309/CCL1 and to estimate the receptor density for human I-309/CCL1 on cell surfaces

R&D Systems Human Mesenchymal Stem Cell 4-Color Flow Kit

For flow cytometric verification of human mesenchymal stem/stromal cell identity using four fluorochrome-conjugated antibodies

R&D Systems Human IGF-I Biotinylated Fluorokine Kit

Designed to qualitatively and quantitatively determine the presence of cells expressing IGF-I receptors or other interacting proteins

R&D Systems Mouse CCL3/MIP-1 alpha Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for murine MIP-1alpha on cell surfaces

R&D Systems Mouse CCL17/TARC Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing chemokine receptors within a population and to estimate the receptor density for TARC on cell surfaces

R&D Systems Human Dkk-1 Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells expressing Dkk-1 receptors within a population and to estimate the receptor density for Dkk-1 on cell surfaces

R&D Systems Human IL-10 Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for human IL-10 on cell surfaces by flow cytometry

R&D Systems Human TNF-alpha Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells bearing cytokine receptors within a population and to estimate the receptor density for the human cytokine TNF-alpha on cell surfaces

R&D Systems Human CCL21/6Ckine Biotinylated Fluorokine Kit

Designed to quantitatively determine the percentage of cells expressing CCL21 receptors within a population and to estimate the receptor density for CCL21 on cell surfaces

R&D Systems Human IL-3 Biotinylated Fluorokine Kit

Designed to qualitatively and quantitatively determine the presence of cells expressing IL-3 receptors or other interacting proteins by flow cytometry

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