Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant

10.1038/s41467-017-00422-w

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Main Authors: Krishnan, M.L, Van Steenwinckel, J, Schang, A.-L, Yan, J, Arnadottir, J, Le Charpentier, T, Csaba, Z, Dournaud, P, Cipriani, S, Auvynet, C, Titomanlio, L, Pansiot, J, Ball, G, Boardman, J.P, Walley, A.J, Saxena, A, Mirza, G, Fleiss, B, Edwards, A.D, Petretto, E, Gressens, P
Other Authors: DUKE-NUS MEDICAL SCHOOL
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Published: Nature Publishing Group 2020
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Online Access:https://scholarbank.nus.edu.sg/handle/10635/174399
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spelling sg-nus-scholar.10635-1743992023-09-21T08:34:47Z Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant Krishnan, M.L Van Steenwinckel, J Schang, A.-L Yan, J Arnadottir, J Le Charpentier, T Csaba, Z Dournaud, P Cipriani, S Auvynet, C Titomanlio, L Pansiot, J Ball, G Boardman, J.P Walley, A.J Saxena, A Mirza, G Fleiss, B Edwards, A.D Petretto, E Gressens, P DUKE-NUS MEDICAL SCHOOL interleukin 1beta postsynaptic density protein 95 STAT3 protein transcriptome disks large homolog 4 DLG4 protein, human interleukin 1beta STAT3 protein transcriptome brain cells and cell components developmental biology gene gene expression genetic variation genomics neonate protein adult animal cell animal experiment animal model animal tissue Article blood brain barrier brain disease cell function controlled study gene cluster gene expression gene structure genetic analysis genetic variability genetic variation genomics human human tissue infant microglia mouse mouse model neuroimaging nonhuman prematurity protein protein interaction protein synthesis transcriptomics white matter animal brain drug effects gene expression regulation gene regulatory network genetics growth, development and aging inflammation metabolism microglia neuropsychiatry newborn nuclear magnetic resonance imaging pathology prematurity quantitative trait locus white matter Animals Brain Disks Large Homolog 4 Protein Gene Expression Regulation Gene Regulatory Networks Genomics Humans Infant, Newborn Infant, Premature Inflammation Interleukin-1beta Magnetic Resonance Imaging Mice Microglia Neuropsychiatry Protein Interaction Maps Quantitative Trait Loci STAT3 Transcription Factor Transcriptome White Matter 10.1038/s41467-017-00422-w Nature Communications 8 1 428 2020-09-04T03:34:03Z 2020-09-04T03:34:03Z 2017 Article Krishnan, M.L, Van Steenwinckel, J, Schang, A.-L, Yan, J, Arnadottir, J, Le Charpentier, T, Csaba, Z, Dournaud, P, Cipriani, S, Auvynet, C, Titomanlio, L, Pansiot, J, Ball, G, Boardman, J.P, Walley, A.J, Saxena, A, Mirza, G, Fleiss, B, Edwards, A.D, Petretto, E, Gressens, P (2017). Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant. Nature Communications 8 (1) : 428. ScholarBank@NUS Repository. https://doi.org/10.1038/s41467-017-00422-w 2041-1723 https://scholarbank.nus.edu.sg/handle/10635/174399 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 interleukin 1beta
postsynaptic density protein 95
STAT3 protein
transcriptome
disks large homolog 4
DLG4 protein, human
interleukin 1beta
STAT3 protein
transcriptome
brain
cells and cell components
developmental biology
gene
gene expression
genetic variation
genomics
neonate
protein
adult
animal cell
animal experiment
animal model
animal tissue
Article
blood brain barrier
brain disease
cell function
controlled study
gene cluster
gene expression
gene structure
genetic analysis
genetic variability
genetic variation
genomics
human
human tissue
infant
microglia
mouse
mouse model
neuroimaging
nonhuman
prematurity
protein protein interaction
protein synthesis
transcriptomics
white matter
animal
brain
drug effects
gene expression regulation
gene regulatory network
genetics
growth, development and aging
inflammation
metabolism
microglia
neuropsychiatry
newborn
nuclear magnetic resonance imaging
pathology
prematurity
quantitative trait locus
white matter
Animals
Brain
Disks Large Homolog 4 Protein
Gene Expression Regulation
Gene Regulatory Networks
Genomics
Humans
Infant, Newborn
Infant, Premature
Inflammation
Interleukin-1beta
Magnetic Resonance Imaging
Mice
Microglia
Neuropsychiatry
Protein Interaction Maps
Quantitative Trait Loci
STAT3 Transcription Factor
Transcriptome
White Matter
spellingShingle interleukin 1beta
postsynaptic density protein 95
STAT3 protein
transcriptome
disks large homolog 4
DLG4 protein, human
interleukin 1beta
STAT3 protein
transcriptome
brain
cells and cell components
developmental biology
gene
gene expression
genetic variation
genomics
neonate
protein
adult
animal cell
animal experiment
animal model
animal tissue
Article
blood brain barrier
brain disease
cell function
controlled study
gene cluster
gene expression
gene structure
genetic analysis
genetic variability
genetic variation
genomics
human
human tissue
infant
microglia
mouse
mouse model
neuroimaging
nonhuman
prematurity
protein protein interaction
protein synthesis
transcriptomics
white matter
animal
brain
drug effects
gene expression regulation
gene regulatory network
genetics
growth, development and aging
inflammation
metabolism
microglia
neuropsychiatry
newborn
nuclear magnetic resonance imaging
pathology
prematurity
quantitative trait locus
white matter
Animals
Brain
Disks Large Homolog 4 Protein
Gene Expression Regulation
Gene Regulatory Networks
Genomics
Humans
Infant, Newborn
Infant, Premature
Inflammation
Interleukin-1beta
Magnetic Resonance Imaging
Mice
Microglia
Neuropsychiatry
Protein Interaction Maps
Quantitative Trait Loci
STAT3 Transcription Factor
Transcriptome
White Matter
Krishnan, M.L
Van Steenwinckel, J
Schang, A.-L
Yan, J
Arnadottir, J
Le Charpentier, T
Csaba, Z
Dournaud, P
Cipriani, S
Auvynet, C
Titomanlio, L
Pansiot, J
Ball, G
Boardman, J.P
Walley, A.J
Saxena, A
Mirza, G
Fleiss, B
Edwards, A.D
Petretto, E
Gressens, P
Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant
description 10.1038/s41467-017-00422-w
author2 DUKE-NUS MEDICAL SCHOOL
author_facet DUKE-NUS MEDICAL SCHOOL
Krishnan, M.L
Van Steenwinckel, J
Schang, A.-L
Yan, J
Arnadottir, J
Le Charpentier, T
Csaba, Z
Dournaud, P
Cipriani, S
Auvynet, C
Titomanlio, L
Pansiot, J
Ball, G
Boardman, J.P
Walley, A.J
Saxena, A
Mirza, G
Fleiss, B
Edwards, A.D
Petretto, E
Gressens, P
format Article
author Krishnan, M.L
Van Steenwinckel, J
Schang, A.-L
Yan, J
Arnadottir, J
Le Charpentier, T
Csaba, Z
Dournaud, P
Cipriani, S
Auvynet, C
Titomanlio, L
Pansiot, J
Ball, G
Boardman, J.P
Walley, A.J
Saxena, A
Mirza, G
Fleiss, B
Edwards, A.D
Petretto, E
Gressens, P
author_sort Krishnan, M.L
title Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant
title_short Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant
title_full Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant
title_fullStr Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant
title_full_unstemmed Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infant
title_sort integrative genomics of microglia implicates dlg4 (psd95) in the white matter development of preterm infant
publisher Nature Publishing Group
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/174399
_version_ 1778169752562171904