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      Overview

      The BD® Single-Cell Multiplexing Kits allow you to combine and simultaneously process up to 24 different samples in one single-cell multiomics experiment on the BD Rhapsody™ Single-Cell Analysis System. The kits are designed to work with all BD Rhapsody™ Assays and include streamlined informatics tools integrated into the BD Rhapsody Bioinformatics Analysis Pipeline to automatically demultiplex by Sample Tags and identify individual samples during data analyses.


      Learn more from the BD® Single-Cell Multiplexing Kit brochure.

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      Find the right BD® Single-Cell Multiplexing Kit product for your single-cell multiomics study

       

       BD® Hu Single-Cell Multiplexing KitBD® Ms Single-Cell Multiplexing KitCustom BD® Single-Cell Multiplexing SetBD® Flex Single-Cell Multiplexing Kits (A, B, C, D)
      Catalog No.633781633793626545633849
      633850
      633851
      633852
      ReactivityHumanMouseMouseSpecies agnostic
      AntibodyA universal human antibodyAnti-Mouse CD45,
      Clone 30-F11      		Anti-Mouse MHC-H2 Class I,
      clone M1/42      		Anti-R-Phycoerythrin (PE),
      Clone E31-1459
      Sample Tagging ApproachDirect labelingDirect labelingDirect labelingTwo-step labeling
      PlexyUp to 12-plexUp to 12-plexUp to 12-plexUp to 24-plex

       

      FEATURES

      The BD® Single-Cell Multiplexing Kits

      • Can lower experimental cost by multiplexing up to 24 individual samples per BD Rhapsody™ Cartridge lane on the BD Rhapsody™ 8-Lane Cartridge
      • Include optimized antibody tagging plus informatics tools, enabling you to experience true sample-to-answer assays
      • Improves data quality by allowing you to identify and remove erroneous data from cell multiplets originating from separate samples through sample tagging
      • Are tested to work across a broad range of cell type and tissue samples
      PERFORMANCE

      The BD® Single-Cell Multiplexing Kit identifies cell multiplets yielding high-quality single-cell output

      t-SNE analysis of single-cell gene expression profile with the BD® Hu Single-Cell Multiplexing Kit and BD Rhapsody™ Human Immune Response Panel. A. Cells are colored by annotation from the Sample Tag determination algorithm within the BD RhapsodyBioinformatics Analysis Pipeline. B. Blue cells highlight multiplets identified. C. t-SNE plot with multiplets and undetermined cells removed to obtain cleaner data for analysis.

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      The BD® Single-Cell Multiplexing Kit shows high sample multiplexing sensitivity and specificity

      t-SNE analysis of single-cell gene expression profile with 24 Sample Tags in the BD® Flex Single-Cell Multiplexing Kits and BD Rhapsody™ Human Immune Response Panel. Cells are clustered based on 399 genes in the BD Rhapsody™ Human Immune Response Panel. The expected 3 phenotypically distinct populations clusters corresponding to Human B cell (Ramos, blue cells), T cell (Jurkat, yellow and green cells), and Monocytes (THP1, red and brown cells) are obtained. High sample multiplexing sensitivity (>99%) and specificity (>95%) are achieved with 24 Sample Tags.

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      APPLICATIONS

      The BD® Single-Cell Multiplexing Kit can be used to increase the number of cells loaded and analyzed while maintaining a low rate of unidentified multiplets

      t-SNE visualization of cell clusters in the 12 Sample Tag experiment with the BD Rhapsody™ System using the Immune Response Panel (right). A. Annotation of major cell types identified by their markers, with putative multiplet clusters in between major clusters, many of which are identified using Sample Tags. B. Highlight of Sample Tag-identified multiplets: multiplets can be identified using Sample Tags even within one cell type cluster. C. Removal of multiplets identified by Sample Tags and their associated putative clusters yields cleaner single-cell RNA-seq data.

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      The BD® Single-Cell Multiplexing Kit can be used with single-cell suspension samples to identify multiplets

      Visualization of Jurkat-only cluster (Sample Tags 4-6) from a 12 Sample Tag experiment (right). A. Multiplets are highlighted as blue points within the Jurkat cluster. Note that many Jurkat multiplets are located on the top-left of the cluster. B. Top-left putative cells identified in the Jurkat cluster are associated with higher detection of genes per cell. C. Extracting total mRNA molecules detected per putative cell revealed that cells identified as multiplets by Sample Tags have higher molecule detection, suggesting that they are bona fide multiplets.

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      For Research Use Only. Not for use in diagnostic or therapeutic procedures.

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