Showing 25–30 of 45 results

  • Human IgG TRF-PINCER Assay Kit, 384-well format

    Human IgG TRF-PINCER Assay Kit, 384-well format

    Mediomics’ human immunoglobulin G (hIgG) assay kit can be used to quantitatively detect the concentration of hIgG in biological samples. Product applications include drug and vaccine testing, high- throughput screening of hybridoma cell lines, as well as quality control and detection capabilities for antibodies in production or research programs. This kit is ideally suited for the rapid, simultaneous measurement of human IgG levels in large number of test samples due to its speed and simplicity. In comparison to the ELISA procedure, the TRF-PINCER® technology provides a simple (one mixing step) and fast (30 minute incubation) assay that is quantitative and reproducible.

     

  • Human Insulin FRET-PINCER Assay Kit, 384 well format

    Human Insulin FRET-PINCER Assay Kit, 384 well format

    The FRET-PINCER® assay is ideally suited for the rapid, simultaneous measurement of human insulin levels in large numbers of test samples due to its speed and simplicity. Insulin is a peptide hormone that plays important roles in human metabolism. Insulin is measured to monitor the level of endogenous insulin produced by the beta cells, to check for insulin resistance, and to help determine other diseases. The FRET-PINCER® assay is an easy and flexible way to get fast, sensitive, and consistent results.

  • Human Insulin FRET-PINCER Assay Kit, 96-well format

    Human Insulin FRET-PINCER Assay Kit, 96-well format

    The FRET-PINCER® assay is ideally suited for the rapid, simultaneous measurement of human insulin levels in large numbers of test samples due to its speed and simplicity. Insulin is a peptide hormone that plays important roles in human metabolism. Insulin is measured to monitor the level of endogenous insulin produced by the beta cells, to check for insulin resistance, and to help determine other diseases. The FRET-PINCER® assay is an easy and flexible way to get fast, sensitive, and consistent results.

  • Human Insulin TRF-PINCER Assay Kit, 384-well format

    Human Insulin TRF-PINCER Assay Kit, 384-well format

    The TRF-PINCER® assay is ideally suited for the rapid, simultaneous measurement of human insulin levels in large numbers of test samples due to its speed and simplicity. Insulin is a peptide hormone that plays important roles in human metabolism. Insulin is measured to monitor the level of endogenous insulin produced by the beta cells, to check for insulin resistance, and to help determine other diseases. The TRF-PINCER® assay is an easy and flexible way to get fast, sensitive, and consistent results. 

  • Mouse IgG FRET-PINCER® Assay Kit, 384-well format

    Mouse IgG FRET-PINCER® Assay Kit, 384-well format

    Mediomics’ mouse immunoglobulin G (mIgG) assay kit can be used to quantitatively detect the concentration of mIgG in biological samples. Product applications include drug and vaccine testing, detection of mIgG antibodies, and determining mIgG concentration. This kit is ideally suited for the rapid, simultaneous measurement of mouse IgG levels in large number of test samples due to its speed and simplicity. In comparison to the ELISA procedure, the TRF-PINCER® technology provides a simple (one mixing step) and fast (30 minute incubation) assay that is quantitative and reproducible.

  • Mouse IgG TRF-PINCER Assay Kit, 384-well format

    Mouse IgG TRF-PINCER Assay Kit, 384-well format

    Mediomics’ mouse immunoglobulin G (mIgG) assay kit can be used to quantitatively detect the concentration of mIgG in biological samples. Product applications include drug and vaccine testing, detection of mIgG antibodies, and determining mIgG concentration. This kit is ideally suited for the rapid, simultaneous measurement of mouse IgG levels in large number of test samples due to its speed and simplicity. In comparison to the ELISA procedure, the TRF-PINCER® technology provides a simple (one mixing step) and fast (30 minute incubation) assay that is quantitative and reproducible.