Single-nucleus and single-cell transcriptomes compared in matched cortical cell types

Trygve E. Bakken; Rebecca D. Hodge; Jeremy A. Miller; Zizhen Yao; Thuc Nghi Nguyen; Brian D. Aevermann; Eliza Barkan; Darren Bertagnolli; Tamara Casper; Nick Dee; Emma Garren; Jeff Goldy; Lucas T. Graybuck; Matthew Kroll; Roger S. Lasken; Kanan Lathia; Sheana Parry; Christine Rimorin; Richard H. Scheuermann; Nicholas J. Schork; Soraya I. Shehata; Michael Tieu; John W. Phillips; Amy Bernard; Kimberly A. Smith; Hongkui Zeng; Ed S. Lein; Bosiljka Tasic

doi:10.1371/journal.pone.0209648

Single-nucleus and single-cell transcriptomes compared in matched cortical cell types

Trygve E. Bakken(Allen Institute for Brain Science), Rebecca D. Hodge(Allen Institute for Brain Science), Jeremy A. Miller(Allen Institute for Brain Science), Zizhen Yao(Allen Institute for Brain Science), Thuc Nghi Nguyen(Allen Institute for Brain Science), Brian D. Aevermann(J. Craig Venter Institute), Eliza Barkan(Allen Institute for Brain Science), Darren Bertagnolli(Allen Institute for Brain Science), Tamara Casper(Allen Institute for Brain Science), Nick Dee(Allen Institute for Brain Science), Emma Garren(Allen Institute for Brain Science), Jeff Goldy(Allen Institute for Brain Science), Lucas T. Graybuck(Allen Institute for Brain Science), Matthew Kroll(Allen Institute for Brain Science), Roger S. Lasken(J. Craig Venter Institute), Kanan Lathia(Allen Institute for Brain Science), Sheana Parry(Allen Institute for Brain Science), Christine Rimorin(Allen Institute for Brain Science), Richard H. Scheuermann(J. Craig Venter Institute), Nicholas J. Schork(J. Craig Venter Institute), Soraya I. Shehata(Allen Institute for Brain Science), Michael Tieu(Allen Institute for Brain Science), John W. Phillips(Allen Institute for Brain Science), Amy Bernard(Allen Institute for Brain Science), Kimberly A. Smith(Allen Institute for Brain Science), Hongkui Zeng(Allen Institute for Brain Science), Ed S. Lein(Allen Institute for Brain Science), Bosiljka Tasic(Allen Institute for Brain Science)

PLoS ONE

December 26, 2018

10.1371/journal.pone.0209648

Cited by 657Open Access

Full Text

Abstract

Transcriptomic profiling of complex tissues by single-nucleus RNA-sequencing (snRNA-seq) affords some advantages over single-cell RNA-sequencing (scRNA-seq). snRNA-seq provides less biased cellular coverage, does not appear to suffer cell isolation-based transcriptional artifacts, and can be applied to archived frozen specimens. We used well-matched snRNA-seq and scRNA-seq datasets from mouse visual cortex to compare cell type detection. Although more transcripts are detected in individual whole cells (~11,000 genes) than nuclei (~7,000 genes), we demonstrate that closely related neuronal cell types can be similarly discriminated with both methods if intronic sequences are included in snRNA-seq analysis. We estimate that the nuclear proportion of total cellular mRNA varies from 20% to over 50% for large and small pyramidal neurons, respectively. Together, these results illustrate the high information content of nuclear RNA for characterization of cellular diversity in brain tissues.

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