Single-cell multi-modal profiling of proteins and chromatin accessibility using PHAGE-ATAC [ASAP_Phage_comparison]
UID: 10873
- Description
- Summary from GEO:
"Multi-modal measurements of single cell profiles are a powerful tool for characterizing cell states and regulatory mechanisms. While current methods allow profiling of RNA along with either readouts of chromatin or protein, connecting chromatin state to protein levels remains a barrier. Here, we developed PHAGE-ATAC, a method that uses engineered camelid single-domain antibody (‘nanobody’)-displaying phages for simultaneous single-cell measurement of surface proteins, chromatin accessibility profiles, and mtDNA-based clonal tracing through a single-cell and massively parallel droplet-based assay of transposase-accessible chromatin with sequencing (ATAC-seq). We demonstrate PHAGE-ATAC for multimodal analysis in primary human immune cells, for multiplexing, for intracellular protein analysis, and for the detection of SARS-CoV-2 spike protein. Finally, we construct a synthetic high-complexity phage library for selection of novel antigen-specific nanobodies that bind cells of particular molecular profiles, opening a new avenue for protein detection, cell characterization and screening with single-cell genomics."
Overall design from GEO:
"PBMCs were incubated with a panel of phage nanobodies or commercial TotalSeq-A antibodies and processed for PHAGE-ATAC, PHAGE-ASAP or ASAP-seq."
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Access via GEO
Accession #: GSE172923Access via BioProject
Accession #: PRJNA723635Access via SRA
Accession #: SRP315791 - Access Restrictions
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Free to All
- Access Instructions
- The NCBI Gene Expression Omnibus, SRA and BioProject databases provide open access to these files.
- Associated Publications
- Equipment Used
- Dataset Format(s)
- CSV, TSV
- Dataset Size
- 1.6069 GB
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