Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses

Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses

10.1038/ncomms12143

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Main Authors: Kapeli, K, Pratt, G.A, Vu, A.Q, Hutt, K.R, Martinez, F.J, Sundararaman, B, Batra, R, Freese, P, Lambert, N.J, Huelga, S.C, Chun, S.J, Liang, T.Y, Chang, J, Donohue, J.P, Shiue, L, Zhang, J, Zhu, H, Cambi, F, Kasarskis, E, Hoon, S, Ares, M, Burge, C.B, Ravits, J, Rigo, F, Yeo, G.W
Other Authors: PHYSIOLOGY
Format: Article
Published: Nature Publishing Group 2020
Subjects:
fused in sarcoma protein
messenger RNA
protein TAF15
RNA
RNA binding protein
TAR DNA binding protein
unclassified drug
antisense oligonucleotide
DNA binding protein
FUS protein, human
FUS protein, mouse
RNA binding protein FUS
small interfering RNA
TAF15 protein, human
TAF15 protein, mouse
TATA binding protein associated factor
TDP-43 protein, human
TDP-43 protein, mouse
brain
chemical binding
genetic engineering
genetic marker
mutation
nervous system disorder
protein
rodent
3' untranslated region
5' untranslated region
adult
alternative RNA splicing
amyotrophic lateral sclerosis
animal cell
animal tissue
Article
case report
controlled study
down regulation
female
gene expression
gene expression regulation
gene mutation
genetic variability
human
intron
motoneuron
mouse
neural stem cell
nonhuman
nucleotide motif
nucleotide sequence
protein RNA binding
RNA metabolism
RNA stability
turnover time
animal
biology
C57BL mouse
disease model
fibroblast
gene knockdown
genetics
high throughput sequencing
induced pluripotent stem cell
metabolism
primary cell culture
procedures
sequence analysis
3' Untranslated Regions
Alternative Splicing
Amyotrophic Lateral Sclerosis
Animals
Computational Biology
Disease Models, Animal
DNA-Binding Proteins
Female
Fibroblasts
Gene Knockdown Techniques
High-Throughput Nucleotide Sequencing
Humans
Induced Pluripotent Stem Cells
Introns
Mice
Mice, Inbred C57BL
Motor Neurons
Mutation
Oligonucleotides, Antisense
Primary Cell Culture
RNA, Messenger
RNA, Small Interfering
RNA-Binding Protein FUS
Sequence Analysis, RNA
TATA-Binding Protein Associated Factors
Online Access:https://scholarbank.nus.edu.sg/handle/10635/174950
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spelling sg-nus-scholar.10635-1749502024-04-04T01:11:38Z Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses Kapeli, K Pratt, G.A Vu, A.Q Hutt, K.R Martinez, F.J Sundararaman, B Batra, R Freese, P Lambert, N.J Huelga, S.C Chun, S.J Liang, T.Y Chang, J Donohue, J.P Shiue, L Zhang, J Zhu, H Cambi, F Kasarskis, E Hoon, S Ares, M Burge, C.B Ravits, J Rigo, F Yeo, G.W PHYSIOLOGY fused in sarcoma protein messenger RNA protein TAF15 RNA RNA binding protein TAR DNA binding protein unclassified drug antisense oligonucleotide DNA binding protein FUS protein, human FUS protein, mouse messenger RNA RNA binding protein FUS small interfering RNA TAF15 protein, human TAF15 protein, mouse TATA binding protein associated factor TDP-43 protein, human TDP-43 protein, mouse brain chemical binding genetic engineering genetic marker mutation nervous system disorder protein RNA rodent 3' untranslated region 5' untranslated region adult alternative RNA splicing amyotrophic lateral sclerosis animal cell animal tissue Article case report controlled study down regulation female gene expression gene expression regulation gene mutation genetic variability human intron motoneuron mouse neural stem cell nonhuman nucleotide motif nucleotide sequence protein RNA binding RNA metabolism RNA stability turnover time amyotrophic lateral sclerosis animal biology C57BL mouse disease model fibroblast gene knockdown genetics high throughput sequencing induced pluripotent stem cell metabolism mutation primary cell culture procedures sequence analysis 3' Untranslated Regions Alternative Splicing Amyotrophic Lateral Sclerosis Animals Computational Biology Disease Models, Animal DNA-Binding Proteins Female Fibroblasts Gene Knockdown Techniques High-Throughput Nucleotide Sequencing Humans Induced Pluripotent Stem Cells Introns Mice Mice, Inbred C57BL Motor Neurons Mutation Oligonucleotides, Antisense Primary Cell Culture RNA, Messenger RNA, Small Interfering RNA-Binding Protein FUS Sequence Analysis, RNA TATA-Binding Protein Associated Factors 10.1038/ncomms12143 Nature Communications 7 12143 2020-09-09T01:31:20Z 2020-09-09T01:31:20Z 2016 Article Kapeli, K, Pratt, G.A, Vu, A.Q, Hutt, K.R, Martinez, F.J, Sundararaman, B, Batra, R, Freese, P, Lambert, N.J, Huelga, S.C, Chun, S.J, Liang, T.Y, Chang, J, Donohue, J.P, Shiue, L, Zhang, J, Zhu, H, Cambi, F, Kasarskis, E, Hoon, S, Ares, M, Burge, C.B, Ravits, J, Rigo, F, Yeo, G.W (2016). Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses. Nature Communications 7 : 12143. ScholarBank@NUS Repository. https://doi.org/10.1038/ncomms12143 20411723 https://scholarbank.nus.edu.sg/handle/10635/174950 Nature Publishing Group Unpaywall 20200831
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic fused in sarcoma protein
messenger RNA
protein TAF15
RNA
RNA binding protein
TAR DNA binding protein
unclassified drug
antisense oligonucleotide
DNA binding protein
FUS protein, human
FUS protein, mouse
messenger RNA
RNA binding protein FUS
small interfering RNA
TAF15 protein, human
TAF15 protein, mouse
TATA binding protein associated factor
TDP-43 protein, human
TDP-43 protein, mouse
brain
chemical binding
genetic engineering
genetic marker
mutation
nervous system disorder
protein
RNA
rodent
3' untranslated region
5' untranslated region
adult
alternative RNA splicing
amyotrophic lateral sclerosis
animal cell
animal tissue
Article
case report
controlled study
down regulation
female
gene expression
gene expression regulation
gene mutation
genetic variability
human
intron
motoneuron
mouse
neural stem cell
nonhuman
nucleotide motif
nucleotide sequence
protein RNA binding
RNA metabolism
RNA stability
turnover time
amyotrophic lateral sclerosis
animal
biology
C57BL mouse
disease model
fibroblast
gene knockdown
genetics
high throughput sequencing
induced pluripotent stem cell
metabolism
mutation
primary cell culture
procedures
sequence analysis
3' Untranslated Regions
Alternative Splicing
Amyotrophic Lateral Sclerosis
Animals
Computational Biology
Disease Models, Animal
DNA-Binding Proteins
Female
Fibroblasts
Gene Knockdown Techniques
High-Throughput Nucleotide Sequencing
Humans
Induced Pluripotent Stem Cells
Introns
Mice
Mice, Inbred C57BL
Motor Neurons
Mutation
Oligonucleotides, Antisense
Primary Cell Culture
RNA, Messenger
RNA, Small Interfering
RNA-Binding Protein FUS
Sequence Analysis, RNA
TATA-Binding Protein Associated Factors
spellingShingle fused in sarcoma protein
messenger RNA
protein TAF15
RNA
RNA binding protein
TAR DNA binding protein
unclassified drug
antisense oligonucleotide
DNA binding protein
FUS protein, human
FUS protein, mouse
messenger RNA
RNA binding protein FUS
small interfering RNA
TAF15 protein, human
TAF15 protein, mouse
TATA binding protein associated factor
TDP-43 protein, human
TDP-43 protein, mouse
brain
chemical binding
genetic engineering
genetic marker
mutation
nervous system disorder
protein
RNA
rodent
3' untranslated region
5' untranslated region
adult
alternative RNA splicing
amyotrophic lateral sclerosis
animal cell
animal tissue
Article
case report
controlled study
down regulation
female
gene expression
gene expression regulation
gene mutation
genetic variability
human
intron
motoneuron
mouse
neural stem cell
nonhuman
nucleotide motif
nucleotide sequence
protein RNA binding
RNA metabolism
RNA stability
turnover time
amyotrophic lateral sclerosis
animal
biology
C57BL mouse
disease model
fibroblast
gene knockdown
genetics
high throughput sequencing
induced pluripotent stem cell
metabolism
mutation
primary cell culture
procedures
sequence analysis
3' Untranslated Regions
Alternative Splicing
Amyotrophic Lateral Sclerosis
Animals
Computational Biology
Disease Models, Animal
DNA-Binding Proteins
Female
Fibroblasts
Gene Knockdown Techniques
High-Throughput Nucleotide Sequencing
Humans
Induced Pluripotent Stem Cells
Introns
Mice
Mice, Inbred C57BL
Motor Neurons
Mutation
Oligonucleotides, Antisense
Primary Cell Culture
RNA, Messenger
RNA, Small Interfering
RNA-Binding Protein FUS
Sequence Analysis, RNA
TATA-Binding Protein Associated Factors
Kapeli, K
Pratt, G.A
Vu, A.Q
Hutt, K.R
Martinez, F.J
Sundararaman, B
Batra, R
Freese, P
Lambert, N.J
Huelga, S.C
Chun, S.J
Liang, T.Y
Chang, J
Donohue, J.P
Shiue, L
Zhang, J
Zhu, H
Cambi, F
Kasarskis, E
Hoon, S
Ares, M
Burge, C.B
Ravits, J
Rigo, F
Yeo, G.W
Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses
description 10.1038/ncomms12143
author2 PHYSIOLOGY
author_facet PHYSIOLOGY
Kapeli, K
Pratt, G.A
Vu, A.Q
Hutt, K.R
Martinez, F.J
Sundararaman, B
Batra, R
Freese, P
Lambert, N.J
Huelga, S.C
Chun, S.J
Liang, T.Y
Chang, J
Donohue, J.P
Shiue, L
Zhang, J
Zhu, H
Cambi, F
Kasarskis, E
Hoon, S
Ares, M
Burge, C.B
Ravits, J
Rigo, F
Yeo, G.W
format Article
author Kapeli, K
Pratt, G.A
Vu, A.Q
Hutt, K.R
Martinez, F.J
Sundararaman, B
Batra, R
Freese, P
Lambert, N.J
Huelga, S.C
Chun, S.J
Liang, T.Y
Chang, J
Donohue, J.P
Shiue, L
Zhang, J
Zhu, H
Cambi, F
Kasarskis, E
Hoon, S
Ares, M
Burge, C.B
Ravits, J
Rigo, F
Yeo, G.W
author_sort Kapeli, K
title Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses
title_short Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses
title_full Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses
title_fullStr Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses
title_full_unstemmed Distinct and shared functions of ALS-associated proteins TDP-43, FUS and TAF15 revealed by multisystem analyses
title_sort distinct and shared functions of als-associated proteins tdp-43, fus and taf15 revealed by multisystem analyses
publisher Nature Publishing Group
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/174950
_version_ 1795374360765136896

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