Mouse 9-Plex Cytokine Release Syndrome Multiplex Panel 2
- SKU:
- MOAMCOV05
- Product Type:
- Multiplex
- Reactivity:
- Mouse
- ELISA Type:
- Multiplex
Description
Mouse 9-Plex Cytokine Release Syndrome Multiplex Panel 2 (MOAMCOV05)
The Mouse 9-Plex Cytokine Release Syndrome Multiplex Panel 2 is a versatile tool for researchers studying cytokine release syndrome (CRS), a potentially life-threatening condition triggered by certain immunotherapies. This panel allows for the simultaneous detection and quantification of 9 key cytokines involved in CRS, providing valuable insights into the inflammatory response and immune dysregulation associated with this syndrome.With the ability to measure multiple cytokines in a single sample, researchers can gain a comprehensive understanding of the complex immune response dynamics underlying CRS. The panel is specifically designed for use with mouse samples, enabling researchers to study CRS in preclinical models and evaluate the efficacy of potential treatments.
Each cytokine in the panel plays a unique role in the development and progression of CRS, making it essential to examine their levels simultaneously. By utilizing this multiplex panel, researchers can assess the cytokine profile in a holistic manner, identifying potential biomarkers and therapeutic targets for CRS management.Overall, the Mouse 9-Plex Cytokine Release Syndrome Multiplex Panel 2 offers a powerful tool for investigating the pathophysiology of CRS and developing targeted interventions to improve patient outcomes. Its high sensitivity, specificity, and reproducibility make it a valuable resource for advancing research in the field of immunotherapy and immune-related disorders.
| Product Name: | Mouse 9-Plex Cytokine Release Syndrome Multiplex Panel 2 |
| Product Code: | MOAMCOV05 |
| Reactivity: | Mouse |
| Analytes: | IL-6, IL-10, IFN-gamma, MCP-1/JE/CCL2, GM-CSF/CSF-2, TNF-alpha, IL-1beta, IL-2, and CXCL1/KC/CINC1/KC/Gro alpha |
| Sample types: | Cell culture supernatant, serum, plasma, bodily fluid and tissue/cell lysate |
| Assay Type: | Multiplex |
| Detection Method: | Flow Cytometry |
| Assay Time: | 2 hours |
| Buffers: | 2x dAb Diluent. One vial containing 1.5 mL of biotin detection antibody diluent |
| Lyophilized Standard Mix: | Mouse COVID-19 Multiplex Cytokine Immunoassay. One vial containing lyophilized recombinant IL-6, IL-10, IFN-gamma, CCL2/SYCA2/MCP-1, GM-CSF/CSF-2, TNF-alpha, IL-1beta, IL-2, and IL-8/CXCL8 |
| Standard dose recovery: | 70-130% |
| Intra-assay CV: | <10% |
| Inter-assay CV: | <20% |
| Cross-reactivity of analytes in the panel: | Negligible |
| Sample volume: | 15 µL/test |
*Note: The below protocol is a sample protocol. Protocols are specific to each batch/lot. For the correct instructions please follow the protocol included in your kit.
A filter plate washer is required for the following protocol. For more information on GeniePlex click here.
| Step | Protocol |
| 1. | Prepare the filter plate template. Mark the standard, sample and blank wells. Standards and samples should be run in duplicates or triplicates. If the whole plate will not be used, seal the unused well with a plate seal. IMPORTANT: Place the filter plate on top of the filter plate lid during the entire assay process to prevent touching the plate bottom on any surface. |
| 2. | Vortex working bead suspension for 15 seconds. |
| 3. | Add 45 µL of capture bead working suspension to each well. NOTE: Save the remaining capture bead working suspension and store at 2-8°C with light protection. It can be used for setting up acquisition parameters on the flow cytometer. |
| 4. | Remove buffer in the wells by using the "flow-through"Filter Plate Washer connected to a vacuum source that has been adjusted according to the Filter Plate Washer Instructions. |
| 5. | Remove buffer in the wells by using the "flow-through"Filter Plate Washer connected to a vacuum source that has been adjusted according to the Filter Plate Washer Instructions. |
| 6. | Add 30 µL of CCS, SPB or TL Assay Buffer to each sample well. NOTE: Cell culture supernatant samples can be run without diluting in Assay Buffer if very low levels (less than 20 pg/mL) of cytokines are expected. If it is the case, skip this step and add 45 µL of cell culture supernatant samples to each sample well in Step 7. |
| 7. | Add 15 µL of samples to each sample well. Add 45 µL of standards to each standard well. Cover the plate with a plate seal. |
| 8. | Incubate on the shaker (set at 700 rpm) for 60 min at room temperature. Protect from light by wrapping the filter plate in aluminum foil. |
| 9. | Remove the plate seal. Remove solutions in the wells by using the Filter Plate Washer connected to a vacuum source. |
| 10. | Remove solutions in the wells by using the Filter Plate Washer connected to a vacuum source. |
| 11. | Wash the wells three times with 100µL 1x Wash Buffer using the Filter Plate Washer. |
| 12. | Gently tap the plate bottom onto several layers of paper towels to remove residual buffer on the plate bottom after the last wash. |
| 13. | Add 25µL of biotinylated antibody working solution to each well. Cover the plate with a plate seal. |
| 14. | Incubate on the shaker (set at 700 rpm) for 30 min at room temperature. Protect from light by wrapping the filter plate in aluminum foil. |
| 15. | Remove the plate seal. Remove solutions in the wells by using the Filter Plate Washer. Wash the wells three times with 100 µL 1x Wash Buffer using the Filter Plate Washer. |
| 16. | Gently tap the plate bottom onto several layers of paper towels to remove residual buffer on the plate bottom after the last wash. |
| 17. | Add 25µL of streptavidin-PE working solution to each well. Cover the plate with a plate seal. |
| 18. | Incubate on the shaker (set at 700 rpm) for 20 min at room temperature. Protect from light by wrapping the filter plate in aluminum foil. |
| 19. | Remove the plate seal. Remove solutions in the wells by using the Filter Plate Washer. Wash the wells twice with 100 µL 1x Wash Buffer. |
| 20. | Gently tap the plate bottom onto several layers of paper towels to remove residual solution. Add 150µL to 300µL of 1x Reading Buffer to each well depending on the sample loading mechanism of a flow cytometer to re-suspend the beads. Cover the plate with a plate seal. |
| 21. | Place the plate on the microtiter shaker and shake for 30 seconds at 700 rpm. NOTE: If the flow cytometer has no 96-well plate loader and more than 200 µL of 1x Reading Buffer is needed to re-suspend the beads, do not shake the plate. Re-suspend the beads in each well by pipetting up and down 6 to 8 times with a P200 pipette then transfer to a test tube for acquisition. Remove the plate seal. Read on a flow cytometer. |
GeniePlex Technology
GeniePlex uses a unique mix of antibody-coated encoded microparticles providing an ultra-sensitive technology for the quantitation of analytes.
At Assay Genie we understand the need for quantitative reproducible results! Therefore, we have developed a simplified protocol meaning you can easily quantify up to 24 analytes in as little as 15µL of sample all in 32-test or 96-test filter plate format for rapid analysis.
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