Orgo-Seq integrates single-cell and bulk transcriptomic data to identify cell type specific-driver genes associated with autism spectrum disorder

被引：0

作者：

Elaine T. Lim

Yingleong Chan

Pepper Dawes

Xiaoge Guo

Serkan Erdin

Derek J. C. Tai

Songlei Liu

Julia M. Reichert

Mannix J. Burns

Ying Kai Chan

Jessica J. Chiang

Katharina Meyer

Xiaochang Zhang

Christopher A. Walsh

Bruce A. Yankner

Soumya Raychaudhuri

Joel N. Hirschhorn

James F. Gusella

Michael E. Talkowski

George M. Church

机构：

[1] University of Massachusetts Chan Medical School,Program in Bioinformatics and Integrative Biology

[2] University of Massachusetts Chan Medical School,Department of Neurology

[3] University of Massachusetts Chan Medical School,NeuroNexus Institute

[4] University of Massachusetts Chan Medical School,Department of Molecular, Cell and Cancer Biology

[5] Harvard Medical School,Department of Genetics, Blavatnik Institute

[6] Harvard University,Wyss Institute for Biologically Inspired Engineerin

[7] Massachusetts General Hospital,Psychiatric and Neurodevelopmental Genetics Unit, Center for Genomic Medicine

[8] Massachusetts General Hospital,Molecular Neurogenetics Unit, Center for Genomic Medicine

[9] Broad Institute of MIT and Harvard,Program in Medical and Population Genetics

[10] Massachusetts General Hospital,Department of Neurology

[11] The University of Chicago,Department of Human Genetics

[12] The University of Chicago,The Grossman Neuroscience Institute

[13] Boston Children’s Hospital,Division of Genetics and Genomics

[14] Boston Children’s Hospital,Manton Center for Orphan Disease Research

[15] Howard Hughes Medical Institute,Department of Pediatrics

[16] Harvard Medical School,Department of Neurology

[17] Harvard Medical School,Center for Data Sciences

[18] Brigham and Women’s Hospital and Harvard Medical School,Division of Rheumatology and Genetics

[19] Brigham and Women’s Hospital and Harvard Medical School,Centre for Genetics and Genomics Versus Arthritis, Manchester Academic Health Science Centre

[20] University of Manchester,Division of Endocrinology

[21] Boston Children’s Hospital,Center for Basic and Translational Obesity Research

[22] Boston Children’s Hospital,Harvard Stem Cell Institute

[23] Harvard University,Stanley Center for Psychiatric Research

[24] Broad Institute of MIT and Harvard,undefined

来源：

Nature Communications | / 13卷

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摘要：

Cerebral organoids can be used to gain insights into cell type specific processes perturbed by genetic variants associated with neuropsychiatric disorders. However, robust and scalable phenotyping of organoids remains challenging. Here, we perform RNA sequencing on 71 samples comprising 1,420 cerebral organoids from 25 donors, and describe a framework (Orgo-Seq) to integrate bulk RNA and single-cell RNA sequence data. We apply Orgo-Seq to 16p11.2 deletions and 15q11–13 duplications, two loci associated with autism spectrum disorder, to identify immature neurons and intermediate progenitor cells as critical cell types for 16p11.2 deletions. We further applied Orgo-Seq to identify cell type-specific driver genes. Our work presents a quantitative phenotyping framework to integrate multi-transcriptomic datasets for the identification of cell types and cell type-specific co-expressed driver genes associated with neuropsychiatric disorders.

引用

共 46 条

[21] CSI-Microbes: Identifying cell-type specific intracellular microbes from single-cell RNA-seq data
Robinson, Welles
Schischlik, Fiorella
Gertz, E. Michael
Lee, Joo S.
Zhu, Kaiyuan
Sahinalp, S. Cenk
Patro, Rob
Leiserson, Mark D.
Schaffer, Alejandro A.
Ruppin, Eytan
CANCER RESEARCH, 2022, 82 (12)
[22] Detecting cell-type-specific allelic expression imbalance by integrative analysis of bulk and single-cell RNA sequencing data
Fan, Jiaxin
Wang, Xuran
Xiao, Rui
Li, Mingyao
PLOS GENETICS, 2021, 17 (03):
[23] Human brain cell type-specific gene co-expression associated with autism spectrum disorder
Lin, Yiping
Li, Shuchao
Ji, Guoli
Guan, Jinting
2019 IEEE INTERNATIONAL CONFERENCE ON BIOINFORMATICS AND BIOMEDICINE (BIBM), 2019, : 2083 - 2089
[24] Integrating single-cell and bulk sequencing data to identify glycosylation-based genes in nonalcoholic fatty liver disease-associated hepatocellular carcinoma
Zhou, Zhijia
Gao, Yanan
Deng, Longxin
Lu, Xiaole
Lai, Yancheng
Wu, Jieke
Chen, Shaodong
Li, Chengzhong
Liang, Huiqing
PEERJ, 2024, 12
[25] SINGLE-CELL TRANSCRIPTIONAL AND EPIGENOMIC DISSECTION OF HUMAN HEART IN HEALTH AND CORONARY ARTERY DISEASE REVEALS CELL-TYPE-SPECIFIC DRIVER GENES AND PATHWAYS
Schmauch, E.
Linna-Kuosmanen, S.
Galani, K.
Kang, K.
Adsera, C. B.
Park, Y. P.
Hollmen, M.
Gunn, J.
Kiviniemi, T.
Garcia-Cardena, G.
Kellis, M.
ATHEROSCLEROSIS, 2021, 331 : E54 - E54
[26] Single-Cell Transcriptional and Epigenomic Dissection of Human Heart in Health and Coronary Artery Disease Reveals Cell-type-Specific Driver Genes and Pathways
Kuosmanen, Suvi Linna
Schmauch, Eloi
Galani, Kyriakitsa
Boix, Carles
Park, Yongjin P.
Hollmen, Maija
Gunn, Jarmo
Kiviniemi, Tuomas O.
Garcia-Cardena, Guillermo
Kellis, Manolis
CIRCULATION, 2020, 142
[27] Comprehensive analysis of macrophage-associated inflammatory genes in AMI based on bulk combined with single-cell sequencing data
Kong, Xugang
Jin, Guangjun
PEERJ, 2024, 12
[28] Utilizing sc-linker to integrate single-cell RNA sequencing and human genetics to identify cell types and driver genes associated with non-small cell lung cancer
Zhou, Yangfan
Zhao, Liang
Cai, Meimei
Luo, Doudou
Pang, Yizhen
Chen, Jianhao
Luo, Qicong
Lin, Qin
BMC CANCER, 2025, 25 (01)
[29] Integration of Bulk and Single-Cell RNA-Seq Data to Construct a Prognostic Model of Membrane Tension-Related Genes for Colon Cancer
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Fu, Yugang
Zhang, Kehui
Li, Yong
VACCINES, 2022, 10 (09)
[30] Single-cell long-read sequencing in human cerebral organoids uncovers cell-type-specific and autism-associated exons
Yang, Yalan
Yang, Runwei
Kang, Bowei
Qian, Sheng
He, Xin
Zhang, Xiaochang
CELL REPORTS, 2023, 42 (11):

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