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Series GSE157299

Query DataSets for GSE157299

Status

Public on Oct 11, 2020

Title

Positional influence on cellular transcriptional identity revealed through spatially segmented single-cell transcriptomics

Organisms

Homo sapiens; Mus musculus

Experiment type

Expression profiling by high throughput sequencing

Summary

Single-cell RNA-sequencing (scRNA-seq) is a powerful technique for describing cell states. Unfortunately, identifying the spatial arrangement of these states in tissues remains challenging. Here, we describe SEgmentation by Exogenous Perfusion (SEEP), a rapid and integrated method to link positional location to transcriptional identity within three-dimensional (3D) disease models. The method utilizes the steady-state diffusion kinetics of a fluorescent dye to establish a gradient along the radial axis of 3D disease models. Classification of sample layers based on dye accessibility permits dissociated and sorted cells to be retrospectively characterized by transcriptomic and regional identity. Using SEEP, we analyze spheroid, organoid, and in vivo tumor models of high grade serous ovarian cancer (HGSOC). The results validate long-standing beliefs regarding the relationship between cell state and position while also revealing new concepts on how the spatially unique microenvironment of individual cells within tumors influences cell identity.

Overall design

Spatially segmented single-cell RNA sequencing was performed using the SEEP method and the inDrop protocol as detailed in the manuscript related to this work

Contributor(s)

Citation missing

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Submission date

Sep 01, 2020

Last update date

Nov 02, 2020

Contact name

David Morse

Organization name

National Institutes of Health

Department

National Center for Advancing Translational Sciences

Street address

9800 Medical Center Drive

City

Rockville

State/province

Maryland

ZIP/Postal code

20850

Country

USA

Platforms (2)

GPL21626	NextSeq 550 (Mus musculus)
GPL21697	NextSeq 550 (Homo sapiens)

Samples (34)

More...

GSM4761102	tumor spheroid - center layer - rep1
GSM4761103	tumor spheroid - center layer - rep2
GSM4761104	tumor spheroid - center layer - rep3

Relations

BioProject

SRA

Download family	Format
SOFT formatted family file(s)	SOFT
MINiML formatted family file(s)	MINiML
Series Matrix File(s)	TXT

Supplementary file	Size	Download	File type/resource
GSE157299_RAW.tar	109.7 Mb	(http)(custom)	TAR (of TSV)
GSE157299_biopsy_all_filtered_barcodes.tsv.gz	11.1 Kb	(ftp)(http)	TSV
GSE157299_biopsy_all_filtered_genes.tsv.gz	285.5 Kb	(ftp)(http)	TSV
GSE157299_biopsy_all_filtered_matrix.mtx.gz	14.1 Mb	(ftp)(http)	MTX
GSE157299_organoid_center_barcodes.tsv.gz	84.6 Kb	(ftp)(http)	TSV
GSE157299_organoid_center_genes.tsv.gz	197.4 Kb	(ftp)(http)	TSV
GSE157299_organoid_center_matrix.mtx.gz	28.3 Mb	(ftp)(http)	MTX
GSE157299_organoid_middle_barcodes.tsv.gz	50.2 Kb	(ftp)(http)	TSV
GSE157299_organoid_middle_genes.tsv.gz	197.4 Kb	(ftp)(http)	TSV
GSE157299_organoid_middle_matrix.mtx.gz	24.0 Mb	(ftp)(http)	MTX
GSE157299_organoid_surface_barcodes.tsv.gz	75.5 Kb	(ftp)(http)	TSV
GSE157299_organoid_surface_genes.tsv.gz	197.4 Kb	(ftp)(http)	TSV
GSE157299_organoid_surface_matrix.mtx.gz	27.2 Mb	(ftp)(http)	MTX
GSE157299_spheroid_all_barcodes.tsv.gz	45.9 Kb	(ftp)(http)	TSV
GSE157299_spheroid_all_genes.tsv.gz	122.4 Kb	(ftp)(http)	TSV
GSE157299_spheroid_all_matrix.mtx.gz	33.2 Mb	(ftp)(http)	MTX
SRA Run Selector
Raw data are available in SRA
Processed data provided as supplementary file

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