Genomics

Dataset Information

0

Single cell analysis of protein epitopes and chromatin accessibility using PHAGE-ATAC [Species_Mix_GFP]


ABSTRACT: Single cell multi-omic readouts of both the cellular transcriptome and proteome have significantly enhanced our ability to comprehensively characterize cellular states. Most approaches in this area rely on oligonucleotide barcode-conjugated antibodies that target cell surface epitopes of interest, enabling their concomitant detection with the transcriptome. However, a similar high-throughput measurement of other cellular modalities such as the epigenome in concert with protein levels have not been described. Moreover, detection of epitopes is limited to antigens for which a specific antibody is available. Here, we introduce PHAGE-ATAC, an approach that enables the scalable and simultaneous detection of protein levels and chromatin accessibility data in single cells using the assay of transposase-accessible chromatin with sequencing (ATAC-seq). Quantitative detection of proteins by PHAGE-ATAC is accomplished through the use of engineerable nanobody-displaying phages that are genetically barcoded within the nanobody-encoding phagemids. We demonstrate the utility of PHAGE-ATAC for multimodal single cell genomic analysis in both cell lines and primary human cells. Analogous to phage display approaches, we further establish a synthetic high-complexity library of nanobody-displaying phages and demonstrate its utility to select novel antigen-specific nanobodies for PHAGE-ATAC.

ORGANISM(S): Mus musculus Homo sapiens

PROVIDER: GSE157485 | GEO | 2021/10/21

REPOSITORIES: GEO

Dataset's files

Source:
Action DRS
Other
Items per page:
1 - 1 of 1

Similar Datasets

2021-10-21 | GSE157478 | GEO
2021-10-21 | GSE157483 | GEO
2021-10-21 | GSE172921 | GEO
2021-10-21 | GSE172920 | GEO
2021-10-21 | GSE172923 | GEO
2023-06-21 | GSE202972 | GEO
2021-09-21 | GSE158906 | GEO
2024-02-19 | GSE255619 | GEO
2023-12-18 | GSE249103 | GEO
2021-09-22 | PXD025207 | Pride