Your search keyword '"Cheen Euong Ang"' showing total 3 results

1. The novel lncRNA lnc-NR2F1 is pro-neurogenic and mutated in human neurodevelopmental disorders

Author

Cheen Euong Ang, Qing Ma, Orly L Wapinski, ShengHua Fan, Ryan A Flynn, Qian Yi Lee, Bradley Coe, Masahiro Onoguchi, Victor Hipolito Olmos, Brian T Do, Lynn Dukes-Rimsky, Jin Xu, Koji Tanabe, LiangJiang Wang, Ulrich Elling, Josef M Penninger, Yang Zhao, Kun Qu, Evan E Eichler, Anand Srivastava, Marius Wernig, and Howard Y Chang

Subjects

long non-coding RNA, induced neuronal cells, autism, genomics, Medicine, Science, Biology (General), QH301-705.5

Abstract

Long noncoding RNAs (lncRNAs) have been shown to act as important cell biological regulators including cell fate decisions but are often ignored in human genetics. Combining differential lncRNA expression during neuronal lineage induction with copy number variation morbidity maps of a cohort of children with autism spectrum disorder/intellectual disability versus healthy controls revealed focal genomic mutations affecting several lncRNA candidate loci. Here we find that a t(5:12) chromosomal translocation in a family manifesting neurodevelopmental symptoms disrupts specifically lnc-NR2F1. We further show that lnc-NR2F1 is an evolutionarily conserved lncRNA functionally enhances induced neuronal cell maturation and directly occupies and regulates transcription of neuronal genes including autism-associated genes. Thus, integrating human genetics and functional testing in neuronal lineage induction is a promising approach for discovering candidate lncRNAs involved in neurodevelopmental diseases.

Published

2019

2. The novel lncRNA lnc-NR2F1 is pro-neurogenic and mutated in human neurodevelopmental disorders

Author

Masahiro Onoguchi, Bradley P. Coe, Victor Hipolito Olmos, Yang Zhao, Anand K. Srivastava, Koji Tanabe, Jin Xu, Howard Y. Chang, Lynn Dukes-Rimsky, Ryan A. Flynn, Qian Yi Lee, Orly L. Wapinski, Liangjiang Wang, Shenghua Fan, Qing Ma, Ulrich Elling, Evan E. Eichler, Marius Wernig, Brian T. Do, Kun Qu, Josef M. Penninger, and Cheen Euong Ang

Subjects

0301 basic medicine, QH301-705.5, Science, Cell, autism, Genomics, Cell fate determination, Biology, Cell Maturation, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, medicine, genomics, Copy-number variation, Biology (General), Gene, Genetics, induced neuronal cells, General Immunology and Microbiology, long non-coding RNA, General Neuroscience, General Medicine, Human genetics, Long non-coding RNA, 030104 developmental biology, medicine.anatomical_structure, Medicine, 030217 neurology & neurosurgery

Abstract

Long noncoding RNAs (lncRNAs) have been shown to act as important cell biological regulators including cell fate decisions but are often ignored in human genetics. Combining differential lncRNA expression during neuronal lineage induction with copy number variation morbidity maps of a cohort of children with autism spectrum disorder/intellectual disability versus healthy controls revealed focal genomic mutations affecting several lncRNA candidate loci. Here we find that a t(5:12) chromosomal translocation in a family manifesting neurodevelopmental symptoms disrupts specifically lnc-NR2F1. We further show that lnc-NR2F1 is an evolutionarily conserved lncRNA functionally enhances induced neuronal cell maturation and directly occupies and regulates transcription of neuronal genes including autism-associated genes. Thus, integrating human genetics and functional testing in neuronal lineage induction is a promising approach for discovering candidate lncRNAs involved in neurodevelopmental diseases.

Published

2019

3. The novel lncRNA

Author

Cheen Euong, Ang, Qing, Ma, Orly L, Wapinski, ShengHua, Fan, Ryan A, Flynn, Qian Yi, Lee, Bradley, Coe, Masahiro, Onoguchi, Victor Hipolito, Olmos, Brian T, Do, Lynn, Dukes-Rimsky, Jin, Xu, Koji, Tanabe, LiangJiang, Wang, Ulrich, Elling, Josef M, Penninger, Yang, Zhao, Kun, Qu, Evan E, Eichler, Anand, Srivastava, Marius, Wernig, and Howard Y, Chang

Subjects

Male, DNA Copy Number Variations, Mouse, Autism Spectrum Disorder, Neurogenesis, autism, Translocation, Genetic, genomics, Humans, Child, Neurons, induced neuronal cells, Chromosomes, Human, Pair 12, long non-coding RNA, Gene Expression Profiling, Cell Differentiation, Genetics and Genomics, Stem Cells and Regenerative Medicine, Pedigree, Neurodevelopmental Disorders, Mutation, Chromosomes, Human, Pair 5, Female, RNA, Long Noncoding, Research Article, Human

Abstract

Long noncoding RNAs (lncRNAs) have been shown to act as important cell biological regulators including cell fate decisions but are often ignored in human genetics. Combining differential lncRNA expression during neuronal lineage induction with copy number variation morbidity maps of a cohort of children with autism spectrum disorder/intellectual disability versus healthy controls revealed focal genomic mutations affecting several lncRNA candidate loci. Here we find that a t(5:12) chromosomal translocation in a family manifesting neurodevelopmental symptoms disrupts specifically lnc-NR2F1. We further show that lnc-NR2F1 is an evolutionarily conserved lncRNA functionally enhances induced neuronal cell maturation and directly occupies and regulates transcription of neuronal genes including autism-associated genes. Thus, integrating human genetics and functional testing in neuronal lineage induction is a promising approach for discovering candidate lncRNAs involved in neurodevelopmental diseases.

Published

2018