Serum metabolomics investigation of humanized mouse model of dengue virus infection

10.1128/JVI.00386-17

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Main Authors:	Cui, L, Hou, J, Fang, J, Lee, Y.H, Costa, V.V, Wong, L.H, Chen, Q, Ooi, E.E, Tannenbaum, S.R, Chen, J, Ong, C.N
Other Authors:	SAW SWEE HOCK SCHOOL OF PUBLIC HEALTH
Format:	Article
Published:	American Society for Microbiology 2020
Subjects:	acylcarnitine arachidonic acid bile acid linoleic acid lysine phenylalanine phospholipid purine derivative pyrimidine derivative sphingolipid tryptophan amino acid synthesis animal experiment animal model arachidonic acid metabolism Article bile acid synthesis biodegradation dengue Dengue virus 2 fatty acid oxidation lipolysis mass spectrometry metabolite metabolome metabolomics mouse mouse model nonhuman phospholipid metabolism priority journal prognosis purine metabolism serum sphingolipid metabolism tryptophan metabolism animal chemistry disease model pathology SCID mouse time factor Animals Dengue Disease Models, Animal Mass Spectrometry Metabolome Metabolomics Mice Mice, SCID Serum Time Factors
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/175158
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Institution:	National University of Singapore

id	sg-nus-scholar.10635-175158
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spelling	sg-nus-scholar.10635-1751582023-08-29T22:00:25Z Serum metabolomics investigation of humanized mouse model of dengue virus infection Cui, L Hou, J Fang, J Lee, Y.H Costa, V.V Wong, L.H Chen, Q Ooi, E.E Tannenbaum, S.R Chen, J Ong, C.N SAW SWEE HOCK SCHOOL OF PUBLIC HEALTH DUKE-NUS MEDICAL SCHOOL acylcarnitine arachidonic acid bile acid linoleic acid lysine phenylalanine phospholipid purine derivative pyrimidine derivative sphingolipid tryptophan amino acid synthesis animal experiment animal model arachidonic acid metabolism Article bile acid synthesis biodegradation dengue Dengue virus 2 fatty acid oxidation lipolysis mass spectrometry metabolite metabolome metabolomics mouse mouse model nonhuman phospholipid metabolism priority journal prognosis purine metabolism serum sphingolipid metabolism tryptophan metabolism animal chemistry dengue disease model metabolome metabolomics pathology SCID mouse time factor Animals Dengue Disease Models, Animal Mass Spectrometry Metabolome Metabolomics Mice Mice, SCID Serum Time Factors 10.1128/JVI.00386-17 Journal of Virology 91 14 e00386-17 2020-09-09T04:18:52Z 2020-09-09T04:18:52Z 2017 Article Cui, L, Hou, J, Fang, J, Lee, Y.H, Costa, V.V, Wong, L.H, Chen, Q, Ooi, E.E, Tannenbaum, S.R, Chen, J, Ong, C.N (2017). Serum metabolomics investigation of humanized mouse model of dengue virus infection. Journal of Virology 91 (14) : e00386-17. ScholarBank@NUS Repository. https://doi.org/10.1128/JVI.00386-17 0022-538X https://scholarbank.nus.edu.sg/handle/10635/175158 American Society for Microbiology Unpaywall 20200831
institution	National University of Singapore
building	NUS Library
continent	Asia
country	Singapore Singapore
content_provider	NUS Library
collection	ScholarBank@NUS
topic	acylcarnitine arachidonic acid bile acid linoleic acid lysine phenylalanine phospholipid purine derivative pyrimidine derivative sphingolipid tryptophan amino acid synthesis animal experiment animal model arachidonic acid metabolism Article bile acid synthesis biodegradation dengue Dengue virus 2 fatty acid oxidation lipolysis mass spectrometry metabolite metabolome metabolomics mouse mouse model nonhuman phospholipid metabolism priority journal prognosis purine metabolism serum sphingolipid metabolism tryptophan metabolism animal chemistry dengue disease model metabolome metabolomics pathology SCID mouse time factor Animals Dengue Disease Models, Animal Mass Spectrometry Metabolome Metabolomics Mice Mice, SCID Serum Time Factors
spellingShingle	acylcarnitine arachidonic acid bile acid linoleic acid lysine phenylalanine phospholipid purine derivative pyrimidine derivative sphingolipid tryptophan amino acid synthesis animal experiment animal model arachidonic acid metabolism Article bile acid synthesis biodegradation dengue Dengue virus 2 fatty acid oxidation lipolysis mass spectrometry metabolite metabolome metabolomics mouse mouse model nonhuman phospholipid metabolism priority journal prognosis purine metabolism serum sphingolipid metabolism tryptophan metabolism animal chemistry dengue disease model metabolome metabolomics pathology SCID mouse time factor Animals Dengue Disease Models, Animal Mass Spectrometry Metabolome Metabolomics Mice Mice, SCID Serum Time Factors Cui, L Hou, J Fang, J Lee, Y.H Costa, V.V Wong, L.H Chen, Q Ooi, E.E Tannenbaum, S.R Chen, J Ong, C.N Serum metabolomics investigation of humanized mouse model of dengue virus infection
description	10.1128/JVI.00386-17
author2	SAW SWEE HOCK SCHOOL OF PUBLIC HEALTH
author_facet	SAW SWEE HOCK SCHOOL OF PUBLIC HEALTH Cui, L Hou, J Fang, J Lee, Y.H Costa, V.V Wong, L.H Chen, Q Ooi, E.E Tannenbaum, S.R Chen, J Ong, C.N
format	Article
author	Cui, L Hou, J Fang, J Lee, Y.H Costa, V.V Wong, L.H Chen, Q Ooi, E.E Tannenbaum, S.R Chen, J Ong, C.N
author_sort	Cui, L
title	Serum metabolomics investigation of humanized mouse model of dengue virus infection
title_short	Serum metabolomics investigation of humanized mouse model of dengue virus infection
title_full	Serum metabolomics investigation of humanized mouse model of dengue virus infection
title_fullStr	Serum metabolomics investigation of humanized mouse model of dengue virus infection
title_full_unstemmed	Serum metabolomics investigation of humanized mouse model of dengue virus infection
title_sort	serum metabolomics investigation of humanized mouse model of dengue virus infection
publisher	American Society for Microbiology
publishDate	2020
url	https://scholarbank.nus.edu.sg/handle/10635/175158
_version_	1778169867820597248

Serum metabolomics investigation of humanized mouse model of dengue virus infection

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