A Novel Approach to Single Cell RNA-Sequence Analysis Facilitates In Silico Gene Reporting of Human Pluripotent Stem Cell-Derived Retinal Cell Types

M. Joseph Phillips; P. Jiang; Sara Howden; Patrick Barney; Jee Min; Nathaniel W. York; Li-Fang Chu; Elizabeth E. Capowski; Abigail Cash; Shivani Jain; Katherine Barlow; Tasnia Tabassum; Ron Stewart; Bikash R. Pattnaik; James A. Thomson; David M. Gamm

doi:10.1002/stem.2755

A Novel Approach to Single Cell RNA-Sequence Analysis Facilitates In Silico Gene Reporting of Human Pluripotent Stem Cell-Derived Retinal Cell Types

M. Joseph Phillips
, P. Jiang
, Sara Howden
, Patrick Barney
, Jee Min
, Nathaniel W. York
, Li-Fang Chu
, Elizabeth E. Capowski
, Abigail Cash
, Shivani Jain
, Katherine Barlow
, Tasnia Tabassum
, Ron Stewart
, Bikash R. Pattnaik
, James A. Thomson
, David M. Gamm

Biological, Geological, and Environmental Sciences

Research output: Contribution to journal › Article › peer-review

50 Scopus citations

Abstract

Cell type-specific investigations commonly use gene reporters or single-cell analytical techniques. However, reporter line development is arduous and generally limited to a single gene of interest, while single-cell RNA (scRNA)-sequencing (seq) frequently yields equivocal results that preclude definitive cell identification. To examine gene expression profiles of multiple retinal cell types derived from human pluripotent stem cells (hPSCs), we performed scRNA-seq on optic vesicle (OV)-like structures cultured under cGMP-compatible conditions. However, efforts to apply traditional scRNA-seq analytical methods based on unbiased algorithms were unrevealing. Therefore, we developed a simple, versatile, and universally applicable approach that generates gene expression data akin to those obtained from reporter lines. This method ranks single cells by expression level of a bait gene and searches the transcriptome for genes whose cell-to-cell rank order expression most closely matches that of the bait. Moreover, multiple bait genes can be combined to refine datasets. Using this approach, we provide further evidence for the authenticity of hPSC-derived retinal cell types. Stem Cells 2018;36:313–324.

Original language	English
Pages (from-to)	313-324
Number of pages	12
Journal	Stem Cells
Volume	36
Issue number	3
DOIs	https://doi.org/10.1002/stem.2755
State	Published - Mar 1 2018

Keywords

Gene expression profiling
High-throughput RNA sequencing
Pluripotent stem cells
Retina

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10.1002/stem.2755

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Phillips, M. J., Jiang, P., Howden, S., Barney, P., Min, J., York, N. W., Chu, L.-F., Capowski, E. E., Cash, A., Jain, S., Barlow, K., Tabassum, T., Stewart, R., Pattnaik, B. R., Thomson, J. A., & Gamm, D. M. (2018). A Novel Approach to Single Cell RNA-Sequence Analysis Facilitates In Silico Gene Reporting of Human Pluripotent Stem Cell-Derived Retinal Cell Types. Stem Cells, 36(3), 313-324. https://doi.org/10.1002/stem.2755

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title = "A Novel Approach to Single Cell RNA-Sequence Analysis Facilitates In Silico Gene Reporting of Human Pluripotent Stem Cell-Derived Retinal Cell Types",

abstract = "Cell type-specific investigations commonly use gene reporters or single-cell analytical techniques. However, reporter line development is arduous and generally limited to a single gene of interest, while single-cell RNA (scRNA)-sequencing (seq) frequently yields equivocal results that preclude definitive cell identification. To examine gene expression profiles of multiple retinal cell types derived from human pluripotent stem cells (hPSCs), we performed scRNA-seq on optic vesicle (OV)-like structures cultured under cGMP-compatible conditions. However, efforts to apply traditional scRNA-seq analytical methods based on unbiased algorithms were unrevealing. Therefore, we developed a simple, versatile, and universally applicable approach that generates gene expression data akin to those obtained from reporter lines. This method ranks single cells by expression level of a bait gene and searches the transcriptome for genes whose cell-to-cell rank order expression most closely matches that of the bait. Moreover, multiple bait genes can be combined to refine datasets. Using this approach, we provide further evidence for the authenticity of hPSC-derived retinal cell types. Stem Cells 2018;36:313–324.",

keywords = "Gene expression profiling, High-throughput RNA sequencing, Pluripotent stem cells, Retina",

author = "Phillips, \{M. Joseph\} and P. Jiang and Sara Howden and Patrick Barney and Jee Min and York, \{Nathaniel W.\} and Li-Fang Chu and Capowski, \{Elizabeth E.\} and Abigail Cash and Shivani Jain and Katherine Barlow and Tasnia Tabassum and Ron Stewart and Pattnaik, \{Bikash R.\} and Thomson, \{James A.\} and Gamm, \{David M.\}",

year = "2018",

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doi = "10.1002/stem.2755",

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Phillips, MJ, Jiang, P, Howden, S, Barney, P, Min, J, York, NW, Chu, L-F, Capowski, EE, Cash, A, Jain, S, Barlow, K, Tabassum, T, Stewart, R, Pattnaik, BR, Thomson, JA & Gamm, DM 2018, 'A Novel Approach to Single Cell RNA-Sequence Analysis Facilitates In Silico Gene Reporting of Human Pluripotent Stem Cell-Derived Retinal Cell Types', Stem Cells, vol. 36, no. 3, pp. 313-324. https://doi.org/10.1002/stem.2755

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AU - Barney, Patrick

AU - Min, Jee

AU - York, Nathaniel W.

AU - Chu, Li-Fang

AU - Capowski, Elizabeth E.

AU - Cash, Abigail

AU - Jain, Shivani

AU - Barlow, Katherine

AU - Tabassum, Tasnia

AU - Stewart, Ron

AU - Pattnaik, Bikash R.

AU - Thomson, James A.

AU - Gamm, David M.

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N2 - Cell type-specific investigations commonly use gene reporters or single-cell analytical techniques. However, reporter line development is arduous and generally limited to a single gene of interest, while single-cell RNA (scRNA)-sequencing (seq) frequently yields equivocal results that preclude definitive cell identification. To examine gene expression profiles of multiple retinal cell types derived from human pluripotent stem cells (hPSCs), we performed scRNA-seq on optic vesicle (OV)-like structures cultured under cGMP-compatible conditions. However, efforts to apply traditional scRNA-seq analytical methods based on unbiased algorithms were unrevealing. Therefore, we developed a simple, versatile, and universally applicable approach that generates gene expression data akin to those obtained from reporter lines. This method ranks single cells by expression level of a bait gene and searches the transcriptome for genes whose cell-to-cell rank order expression most closely matches that of the bait. Moreover, multiple bait genes can be combined to refine datasets. Using this approach, we provide further evidence for the authenticity of hPSC-derived retinal cell types. Stem Cells 2018;36:313–324.

AB - Cell type-specific investigations commonly use gene reporters or single-cell analytical techniques. However, reporter line development is arduous and generally limited to a single gene of interest, while single-cell RNA (scRNA)-sequencing (seq) frequently yields equivocal results that preclude definitive cell identification. To examine gene expression profiles of multiple retinal cell types derived from human pluripotent stem cells (hPSCs), we performed scRNA-seq on optic vesicle (OV)-like structures cultured under cGMP-compatible conditions. However, efforts to apply traditional scRNA-seq analytical methods based on unbiased algorithms were unrevealing. Therefore, we developed a simple, versatile, and universally applicable approach that generates gene expression data akin to those obtained from reporter lines. This method ranks single cells by expression level of a bait gene and searches the transcriptome for genes whose cell-to-cell rank order expression most closely matches that of the bait. Moreover, multiple bait genes can be combined to refine datasets. Using this approach, we provide further evidence for the authenticity of hPSC-derived retinal cell types. Stem Cells 2018;36:313–324.

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A Novel Approach to Single Cell RNA-Sequence Analysis Facilitates In Silico Gene Reporting of Human Pluripotent Stem Cell-Derived Retinal Cell Types

Abstract

Keywords

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