ASCOT identifies key regulators of neuronal subtype-specific splicing

Jonathan P. Ling; Christopher Wilks; Rone Charles; Patrick J. Leavey; Devlina Ghosh; Lizhi Jiang; Clayton P. Santiago; Bo Pang; Anand Venkataraman; Brian S. Clark; Abhinav Nellore; Ben Langmead; Seth Blackshaw

doi:10.1038/s41467-019-14020-5

ASCOT identifies key regulators of neuronal subtype-specific splicing

Jonathan P. Ling, Christopher Wilks, Rone Charles, Patrick J. Leavey, Devlina Ghosh, Lizhi Jiang, Clayton P. Santiago, Bo Pang, Anand Venkataraman, Brian S. Clark, Abhinav Nellore, Ben Langmead, Seth Blackshaw

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

34 Scopus citations

Abstract

Public archives of next-generation sequencing data are growing exponentially, but the difficulty of marshaling this data has led to its underutilization by scientists. Here, we present ASCOT, a resource that uses annotation-free methods to rapidly analyze and visualize splice variants across tens of thousands of bulk and single-cell data sets in the public archive. To demonstrate the utility of ASCOT, we identify novel cell type-specific alternative exons across the nervous system and leverage ENCODE and GTEx data sets to study the unique splicing of photoreceptors. We find that PTBP1 knockdown and MSI1 and PCBP2 overexpression are sufficient to activate many photoreceptor-specific exons in HepG2 liver cancer cells. This work demonstrates how large-scale analysis of public RNA-Seq data sets can yield key insights into cell type-specific control of RNA splicing and underscores the importance of considering both annotated and unannotated splicing events.

Original language	English (US)
Article number	137
Journal	Nature communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-14020-5
State	Published - Dec 1 2020

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-019-14020-5

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title = "ASCOT identifies key regulators of neuronal subtype-specific splicing",

abstract = "Public archives of next-generation sequencing data are growing exponentially, but the difficulty of marshaling this data has led to its underutilization by scientists. Here, we present ASCOT, a resource that uses annotation-free methods to rapidly analyze and visualize splice variants across tens of thousands of bulk and single-cell data sets in the public archive. To demonstrate the utility of ASCOT, we identify novel cell type-specific alternative exons across the nervous system and leverage ENCODE and GTEx data sets to study the unique splicing of photoreceptors. We find that PTBP1 knockdown and MSI1 and PCBP2 overexpression are sufficient to activate many photoreceptor-specific exons in HepG2 liver cancer cells. This work demonstrates how large-scale analysis of public RNA-Seq data sets can yield key insights into cell type-specific control of RNA splicing and underscores the importance of considering both annotated and unannotated splicing events.",

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AU - Wilks, Christopher

AU - Charles, Rone

AU - Leavey, Patrick J.

AU - Ghosh, Devlina

AU - Jiang, Lizhi

AU - Santiago, Clayton P.

AU - Pang, Bo

AU - Venkataraman, Anand

AU - Clark, Brian S.

AU - Nellore, Abhinav

AU - Langmead, Ben

AU - Blackshaw, Seth

PY - 2020/12/1

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ASCOT identifies key regulators of neuronal subtype-specific splicing

Abstract

ASJC Scopus subject areas

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