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CapTCR-seq: hybrid capture for T-cell receptor repertoire profiling

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Presentation on theme: "CapTCR-seq: hybrid capture for T-cell receptor repertoire profiling"— Presentation transcript:

1 CapTCR-seq: hybrid capture for T-cell receptor repertoire profiling
by David T. Mulder, Etienne R. Mahé, Mark Dowar, Youstina Hanna, Tiantian Li, Linh T. Nguyen, Marcus O. Butler, Naoto Hirano, Jan Delabie, Pamela S. Ohashi, and Trevor J. Pugh BloodAdv Volume 2(23): December 11, 2018 © 2018 by The American Society of Hematology

2 David T. Mulder et al. Blood Adv 2018;2:3506-3514
© 2018 by The American Society of Hematology

3 An overview of the CapTCR-Seq hybrid-capture method.
An overview of the CapTCR-Seq hybrid-capture method. (A) Hybrid-capture method experimental flow diagram. Fragments are colored based on whether they contain V-region targets (blue), J-region targets (red), D-regions (green), constant regions (yellow), or non-TCR coding regions (black). (B) V(D)J rearrangement and CDR3 sequence detection algorithm flow diagram. (C) Number of unique VJ pairs recovered relative to library DNA input amount for V probe panel capture of replicate libraries from a single PBMC sample (A037). (D) A037 polyclonal human β locus VJ rearrangements determined by CapTCR-seq. (E) A037 polyclonal human β locus VJ rearrangements determined by a PCR-based profiling service. (F) Subtractive comparison between CapTCR-seq and PCR-based profiling service. Red indicates relative enrichment of indicated pair by CapTCR-seq, whereas blue indicates relative enrichment of indicated pair by PCR-based profiling. David T. Mulder et al. Blood Adv 2018;2: © 2018 by The American Society of Hematology

4 T-cell clonality across 5 cell lines and 4 primary T-cell specimens.
T-cell clonality across 5 cell lines and 4 primary T-cell specimens. Boxes represent individual unique VJ pairs, and box size reflects abundance in sample. Samples ordered by decreasing clonality. (A) β chain VJ rearrangements. (B) γ chain VJ rearrangements. (C) L2D8 gp100 antigen-specific β locus VJ rearrangements determined by CapTCR-seq. (D) L2D8 gp100 antigen-specific β locus VJ rearrangements determined by a PCR-based profiling service. (E) Subtractive comparison between CapTCR-seq and PCR-based profiling service. Red indicates relative enrichment of indicated pair by CapTCR-seq, whereas blue indicates relative enrichment of indicated pair by PCR-based profiling. David T. Mulder et al. Blood Adv 2018;2: © 2018 by The American Society of Hematology

5 T-cell clonality across 63 samples referred for clinical TCR clonality testing.
T-cell clonality across 63 samples referred for clinical TCR clonality testing. Boxes represent individual unique VJ rearrangements, and box size reflects abundance in sample. BIOMED-2 clonality assessments are indicated as green (clonal), red (polyclonal), or yellow (not performed). CapTCR-seq binary clonality calls are indicated as green (enriched for a single rearrangement) or red (nonenriched). CapTCR-seq continuous Clonality Scores (supplemental Table 11) are indicated as a gradient from dark green (1) to dark red (0) through white (median), where larger values indicate greater fractional prevalence. Samples are ordered left to right in terms of increasing CapTCR-Seq clonality with an asterisk indicating disagreement between CapTCR-Seq and BIOMED-2 assessments. (A) β chain VJ rearrangements. (B) γ chain VJ rearrangements. Note that samples occur in different orders between the 2 panels to facilitate comparison of CapTCR-seq and BIOMED-2, resulting in the 2 independent loci. David T. Mulder et al. Blood Adv 2018;2: © 2018 by The American Society of Hematology

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