Figure 1.
Figure 1. Workflow for MRD assessment by RQ-PCR and high-throughput sequencing targeting the clonal immunoglobulin heavy chain gene (IGH) rearrangement. (A) Consensus PCR for assessment of clonal IGH gene rearrangements is followed by Sanger sequencing to identify the clonal VH-N-DH-N-JH region for each patient. Allele-specific primers are used for sensitive quantification of residual tumor cells by RQ-PCR. (B) An amplicon-sequencing strategy is used for identification of clonal IGH gene rearrangement in a 2-step PCR approach, in which the first PCR is performed by using multiplex gene-specific primers tailed with a universal linker sequence. The universal tailed amplicons can be used for second-round PCR, in which next-generation sequencing platform-specific adapters can be introduced, depending on the platform used for sequencing.

Workflow for MRD assessment by RQ-PCR and high-throughput sequencing targeting the clonal immunoglobulin heavy chain gene (IGH) rearrangement. (A) Consensus PCR for assessment of clonal IGH gene rearrangements is followed by Sanger sequencing to identify the clonal VH-N-DH-N-JH region for each patient. Allele-specific primers are used for sensitive quantification of residual tumor cells by RQ-PCR. (B) An amplicon-sequencing strategy is used for identification of clonal IGH gene rearrangement in a 2-step PCR approach, in which the first PCR is performed by using multiplex gene-specific primers tailed with a universal linker sequence. The universal tailed amplicons can be used for second-round PCR, in which next-generation sequencing platform-specific adapters can be introduced, depending on the platform used for sequencing.

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