Nuclei multiplexing with barcoded antibodies for single-nucleus genomics.
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IF: 17.694
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Cited by: 96
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Abstract

Single-nucleus RNA-seq (snRNA-seq) enables the interrogation of cellular states in complex tissues that are challenging to dissociate or are frozen, and opens the way to human genetics studies, clinical trials, and precise cell atlases of large organs. However, such applications are currently limited by batch effects, processing, and costs. Here, we present an approach for multiplexing snRNA-seq, using sample-barcoded antibodies to uniquely label nuclei from distinct samples. Comparing human brain cortex samples profiled with or without hashing antibodies, we demonstrate that nucleus hashing does not significantly alter recovered profiles. We develop DemuxEM, a computational tool that detects inter-sample multiplets and assigns singlets to their sample of origin, and validate its accuracy using sex-specific gene expression, species-mixing and natural genetic variation. Our approach will facilitate tissue atlases of isogenic model organisms or from multiple biopsies or longitudinal samples of one donor, and large-scale perturbation screens.

Keywords

Omics
Gene Expression
Seurat

MeSH terms

Aged
Aged, 80 and over
Animals
Antibodies
Cell Nucleus
DNA
Female
Genomics
Humans
Male
Mice
Mice, Inbred C57BL
Neurons
Prefrontal Cortex
RNA, Messenger
Single-Cell Analysis

Authors

Gaublomme, Jellert T
Li, Bo
McCabe, Cristin
Knecht, Abigail
Yang, Yiming
Drokhlyansky, Eugene
Van Wittenberghe, Nicholas
Waldman, Julia
Dionne, Danielle
Nguyen, Lan
De Jager, Philip L
Yeung, Bertrand
Zhao, Xinfang
Habib, Naomi
Rozenblatt-Rosen, Orit
Regev, Aviv

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