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      Redefine CITE-seq

      Profile intracellular proteins, surface proteins and RNA in one single-cell experiment

       

      The Intracellular CITE-seq Assay using BD® AbSeq Antibody-Oligos:

       

      • Enables simultaneous RNA, surface protein and intracellular protein detection
      • Supports high-plex proteomics profiling (~100 protein markers) at the single-cell level
      • Allows a safe stopping point during the workflow without compromising assay sensitivity
      • Works with the BD® Single-Cell Multiplexing Kit to enable sample multiplexing
      • Drives deeper understanding of cellular functions such as signal transduction dynamics and transcriptional regulation

       

      Get more information from the Intracellular CITE-seq Assay using BD® AbSeq Antibody-Oligos brochure.

      performance1

      List of Available Intracellular BD® AbSeq Ab-Oligo Specificities

       

      SpecificityClone

      Caspase-3

      C92-605

      PARP (Cleaved)

      F21-852

      H2AX (pS139)

      N1-431

      T-bet

      O4-46

      Granzyme B

      GB11

      Helios

      22F6

      BCL-6

      K112-91

      GATA3

      L50-823

      Ki-67

      B56

      Stat6 (pY641)

      18/P-Stat6

      p38 MAPK (pT180/pY182)

      36/p38 (pT180/pY182)

      Chromogranin A

      S21-537

      Sox2

      O30-678

      Sox17

      P7-969

      Applications

      Intracellular BD® AbSeq Antibody-Oligos can be used to characterize a heterogeneous subset of T follicular helper (TFH) cells in human tonsil 

       

      A combination of intracellular CITE-seq, surface CITE-seq and scRNA-seq was used to deepen our understanding of the differentiation states and subsets of cells present at low abundance, such as TFH cells.

       

      We characterized the heterogeneous subsets of TFH and circulating TFH (cTFH) cells using a combination of intracellular CITE-seq, surface CITE-seq and whole transcriptome single-cell RNA sequencing (scRNA-seq) analysis. Germinal center and cTFH cells were enriched by sorting memory CD4+, CXCR5+, PD-1+ from a tonsil (n = 1) and memory CD4+ CXCR5+ cells from a matched blood sample and a healthy blood donor (n = 2). We examined the expression of Bcl-6 and other transcription factors, using protein and RNA expression data, across pre-TFH (an early development stage in the germinal center), TFH and cTFH cells.

       

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