Project description:We performed high-throughput single-cell targeted DNA and surface protein sequencing (scDNA + protein-seq) using the Mission Bio Tapestri Platform to analyze NK cells isolated from five patients with CCUS exhibiting different genetic alterations. Our analysis revealed that the NK cells were part of the mutant clone population, displaying a clonal burden comparable to that observed in the myeloid cells of the same patients. This dataset provides valuable insights into the clonal architecture of NK cells in the context of CCUS.

Project description:Mitochondrial DNA mutations (mtDNA) enable deconvolution of donor- and recipient-derived single cell profiles. Here, we provide examples for sensitive donor-recipient deconvolution of peripheral blood and bone marrow ASAP-seq profiles in the context of incipient and overt AML relapse following allogeneic hematopoietic stem cell transplantation. Further, using single cell DNA sequencing (Tapestri), we demonstrate co-evolution of mtDNA and somatic nuclear DNA mutations in relapsed CLL post-HSCT.

Project description:Mitochondrial DNA mutations (mtDNA) enable deconvolution of donor- and recipient-derived single cell profiles. Here, we provide examples for sensitive donor-recipient deconvolution of peripheral blood and bone marrow ASAP-seq profiles in the context of incipient and overt AML relapse following allogeneic hematopoietic stem cell transplantation. Further, using single cell DNA sequencing (Tapestri), we demonstrate co-evolution of mtDNA and somatic nuclear DNA mutations in relapsed CLL post-HSCT.

Project description:Mitochondrial DNA mutations (mtDNA) enable deconvolution of donor- and recipient-derived single cell profiles. Here, we provide examples for sensitive donor-recipient deconvolution of peripheral blood and bone marrow ASAP-seq profiles in the context of incipient and overt AML relapse following allogeneic hematopoietic stem cell transplantation. Further, using single cell DNA sequencing (Tapestri), we demonstrate co-evolution of mtDNA and somatic nuclear DNA mutations in relapsed CLL post-HSCT.

Project description:Mitochondrial DNA mutations (mtDNA) enable deconvolution of donor- and recipient-derived single cell profiles. Here, we provide examples for sensitive donor-recipient deconvolution of peripheral blood and bone marrow ASAP-seq profiles in the context of incipient and overt AML relapse following allogeneic hematopoietic stem cell transplantation. Further, using single cell DNA sequencing (Tapestri), we demonstrate co-evolution of mtDNA and somatic nuclear DNA mutations in relapsed CLL post-HSCT.

Project description:Mitochondrial DNA mutations (mtDNA) enable deconvolution of donor- and recipient-derived single cell profiles. Here, we provide examples for sensitive donor-recipient deconvolution of peripheral blood and bone marrow ASAP-seq profiles in the context of incipient and overt AML relapse following allogeneic hematopoietic stem cell transplantation. Further, using single cell DNA sequencing (Tapestri), we demonstrate co-evolution of mtDNA and somatic nuclear DNA mutations in relapsed CLL post-HSCT.

Project description:A custom single-cell amplicon DNA sequencing panel was designed to cover relevant somatic mutations and common single nucleotide polymorphisms (panel CO303). Frozen bone marrow mononuclear cells were thawed, stained using the antibody-derived tags panel TotalSeq™-D Human Heme Oncology Cocktail, V1.0 (Biolegend) and loaded into Tapestri single-cell DNA genotyping platform (Mission Bio) to perform microfluidic encapsulation, lysis, and barcoding according to the manufacturer’s protocol (Chemistry V2, PN_3360A). DNA and ADT libraries were prepared and underwent 2x150bp paired-end sequencing on a NextSeq 500 platform (Illumina).

Project description:This dataset includes the Fastq files from sequencing data generate from diagnostic and remission bone marrow mononuclear cell samples using the Mission Bio Tapestri Plateform with both DNA amplicons and protein from antibody-derived tags sequencing libraries.

Project description:Single-cell DNA sequencing with antibody-oligonucleotide staining was performed using the Mission Bio Tapestri single-cell DNA sequencing platform, per the manufacturer’s instructions. All libraries were sized and quantified using an Agilent Bioanalyzer and pooled for sequencing on an Illumina NovaSeq6000 with 150 base-paired ending multiplexed runs. Fastq files generated by the sequencers were processed using the Tapestri Pipeline V2 and included adapter trimming, sequence alignment (BWA), barcode correction, cell finding, and variant calling (GATK v4/Haplotypecaller). FastQ files are provided for the 5 samples that were processed using the aforementioned pipeline.

Project description:This dataset include the Fastq files from Mission Bio DNA+Protein single-cell multiomic sequencing from 11 NPM1-mutated AML diagnostic samples.