Dengue Virus Induces Novel Changes in Gene Expression of Human Umbilical Vein Endothelial Cells - Wikidata - wikimedia - TriplyDB

Dengue Virus Induces Novel Changes in Gene Expression of Human Umbilical Vein Endothelial Cells

Dengue Virus Induces Novel Changes in Gene Expression of Human Umbilical Vein Endothelial Cells

http://www.wikidata.org/entity/Q27485730

about

Transcriptomic and proteomic analyses of rhabdomyosarcoma cells reveal differential cellular gene expression in response to enterovirus 71 infection Up-regulation of galectin-9 induces cell migration in human dendritic cells infected with dengue virus Endothelial cells in dengue hemorrhagic fever Coronavirus gene 7 counteracts host defenses and modulates virus virulence The Src Family Kinase c-Yes Is Required for Maturation of West Nile Virus Particles Transcriptional Activation of Interferon-Stimulated Genes but Not of Cytokine Genes after Primary Infection of Rhesus Macaques with Dengue Virus Type 1 Host Gene Expression Profiling of Dengue Virus Infection in Cell Lines and Patients Differential Expression of Interferon (IFN) Regulatory Factors and IFN-Stimulated Genes at Early Times after West Nile Virus Infection of Mouse Embryo Fibroblasts Distinct gene expression profiles in peripheral blood mononuclear cells from patients infected with vaccinia virus, yellow fever 17D virus, or upper respiratory infections TRAIL Is a Novel Antiviral Protein against Dengue Virus Molecular profiling of T-helper immune genes during dengue virus infection Identification of Cellular Proteome Modifications in Response to West Nile Virus Infection Dengue Virus Infection Induces Upregulation of GRP78, Which Acts To Chaperone Viral Antigen Production Heart and Skeletal Muscle Are Targets of Dengue Virus Infection Oligoadenylate synthase-like (OASL) proteins: dual functions and associations with diseases Dengue Virus Control of Type I IFN Responses: A History of Manipulation and Control Transcriptome-wide RNA sequencing analysis of rat skeletal muscle feed arteries. I. Impact of obesity Gene expression patterns of dengue virus-infected children from nicaragua reveal a distinct signature of increased metabolism Galectin-1 exerts inhibitory effects during DENV-1 infection GeneChip resequencing of the smallpox virus genome can identify novel strains: a biodefense application.Endothelial galectin-1 binds to specific glycans on nipah virus fusion protein and inhibits maturation, mobility, and function to block syncytia formation.Gene expression in the brain during reovirus encephalitis.Gene expression profiling of dengue infected human primary cells identifies secreted mediators in vivo.Characterization of early host responses in adults with dengue disease.Gene expression signature in organized and growth-arrested mammary acini predicts good outcome in breast cancer Activation of the innate immune response against DENV in normal non-transformed human fibroblasts Upregulation of a novel eukaryotic translation initiation factor 5A (eIF5A) in dengue 2 virus-infected mosquito cells.Additive protection by antioxidant and apoptosis-inhibiting effects on mosquito cells with dengue 2 virus infection Host cell transcriptome profile during wild-type and attenuated dengue virus infection.Japanese encephalitis virus infection induces changes of mRNA profile of mouse spleen and brain.Sulfated Escherichia coli K5 polysaccharide derivatives inhibit dengue virus infection of human microvascular endothelial cells by interacting with the viral envelope protein E domain III.Dengue virus type 3 isolated from a fatal case with visceral complications induces enhanced proinflammatory responses and apoptosis of human dendritic cells Assessing the permissiveness of transcriptional activator binding sites.Timing of galectin-1 exposure differentially modulates Nipah virus entry and syncytium formation in endothelial cells.Dengue virus induces and requires glycolysis for optimal replication High-throughput quantitative proteomic analysis of dengue virus type 2 infected A549 cells.Productive dengue virus infection of human endothelial cells is directed by heparan sulfate-containing proteoglycan receptors.Dengue hemorrhagic fever-associated immunomediators induced via maturation of dengue virus nonstructural 4B protein in monocytes modulate endothelial cell adhesion molecules and human microvascular endothelial cells permeability.Molecular mechanisms of West Nile virus pathogenesis in brain cell Endothelial cells elicit immune-enhancing responses to dengue virus infection.

P2860

Q24309119-9F5E5F12-6311-4D73-A926-68D45B293C67 Q24321941-BC5CD7EB-A872-492C-98B2-A96EBBA7B620 Q26825663-249875AA-6657-47A7-856E-7E55CB3AE0E4 Q27349527-76279903-6B14-45AA-BDCA-BE458835A63B Q27471553-4CDC2877-85E6-4D02-8328-B605CDC1A62C Q27480996-8ED482A2-F93F-4599-8009-A7100BEF09E8 Q27482207-962B71B2-6EAA-498D-A5DF-ADC41FCD9EA0 Q27484990-EDE6581A-F6DD-4BBC-B5B4-96DE8FC2A788 Q27485174-1FDFE1F7-30C1-4447-BF7D-C2D7903D63B1 Q27485295-3FD55592-8FB1-43D3-A556-AC01C6755CBF Q27487753-2A200023-7E1F-465A-8E5E-23DE8FA52D2D Q27488891-1695EC5B-BC53-477A-8E1A-45EA78A7722B Q27490477-09A76887-99BE-4B0D-B702-0B40C02ABF4E Q27491023-303DCE90-0530-4EAE-85D0-0D0F7B8686CE Q28082381-4371EBF1-95E0-4B31-80A5-CBD3383CAB11 Q28087420-4A887A36-2BF4-4737-A5B4-FB859C9E27AF Q28386749-E4175B84-1E18-4DA3-BB27-6F926909E16D Q28474384-6C78AC7A-8122-461D-9819-81F2532931F0 Q28544937-A20B09A6-6637-4F92-9814-72E22486658D Q30230190-09AEC610-25D9-44E8-8846-A8565B9325E5 Q33640112-43058AF4-17D3-495D-8651-EF8B7807EED5 Q33935875-A19EB9A0-91A6-4623-A883-C386E318C474 Q33945948-D1413A89-8D6C-439C-B3D4-BD9479493923 Q33979000-2F065210-F872-42E0-85AD-DCEF2FCE43A4 Q34103462-F8C9E310-43DC-4643-BA04-C801E4AF67CE Q34113793-5036061B-DDDE-413A-AB42-175C91112CD9 Q34142189-316F8D67-235C-4556-9915-CE80271EDD2A Q34244009-C7720E08-5976-4A90-9152-1CADF8478362 Q34630542-D6A2D899-37F5-446A-95D8-6EF514FE6734 Q34668793-54E9D3D7-9346-4589-A095-CFBD52459659 Q34981768-B31D99E7-8960-4798-90A0-83C515D95A83 Q34982641-A8D783BE-1DB6-4B74-8347-E674F2113EE2 Q35067189-A4320FAC-6969-45C1-8824-A75C5403EE54 Q35076790-E2412809-FC0B-407B-A0DB-0B4625401B97 Q35115662-21442906-687F-4FE7-9758-9880AA3B0426 Q35132417-422A0918-F2FA-427D-BCB5-7048FE3BB403 Q35192749-5FAAE1C9-07E2-47D8-9FC4-2B512CA7778B Q35739855-7D174924-6D3D-4BD9-A25E-2280E9A36576 Q35872989-C3D12E82-CE2B-43FA-85FA-5D4E15C3C412 Q36086727-4710C35F-0BC2-404E-AB14-BA58DDCC5BA9

P2860

Dengue Virus Induces Novel Changes in Gene Expression of Human Umbilical Vein Endothelial Cells

http://www.wikidata.org/entity/Q27485730

description

2003 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

@hyw

2003 թվականի նոյեմբերին հրատարակված գիտական հոդված

@hy

article scientifique (publié 2003-11)

@fr

articolo scientifico (pubblicato il 2003-11)

@it

artigo científico (publicado na 2003-11)

@pt

artículu científicu espublizáu en 2003

@ast

im November 2003 veröffentlichter wissenschaftlicher Artikel

@de

scientific article (publication date: November 2003)

@en

vedecký článok (publikovaný 2003-11)

@sk

vetenskaplig artikel (publicerad på 2003-11)

@sv

name

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@ast

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@en

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@nl

type

label

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@ast

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@en

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@nl

prefLabel

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@ast

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@en

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@nl

P1433

Q27485730-915EA5E2-2823-4E0B-A877-A24CE71FE930

P1476

Q27485730-A7DE71A2-ADF5-4F41-9C6B-5CB76C83E9F1

P2093

Q27485730-459655FE-820A-496D-B3D2-53BBC7971EC9

Q27485730-4BAFC7A7-16F7-4A46-B480-1C61FFBE51A8

Q27485730-62309942-6C0B-4E69-B3D0-2454385FBD7A

Q27485730-86C81915-F7E7-4D2E-9B76-2EBBB636E763

Q27485730-910E36A8-6C98-4113-8E80-1A1369221CCC

Q27485730-9DC8E889-68FC-41EB-B193-DA4DADEC238D

Q27485730-D9B9F842-25F3-43B9-AF0A-45B69EA453C7

Q27485730-ED3AE685-C907-4FDE-8930-85920936D529

Q27485730-FC0E44B4-5009-4365-8738-068194A5AE8B

P2860

Q27485730-0A2B8610-DF06-4127-9198-BB68D2254EBB

Q27485730-0C024422-669F-42D0-8C1A-64CE51D0BAB3

Q27485730-19313239-FDAA-43B2-9A8B-5D101BF10AB3

Q27485730-1A11A95A-93DE-4ADE-8E29-B130381E67C4

Q27485730-1A76EBD9-FB22-48C2-A474-9E0691A59C70

Q27485730-1D5467EA-4A5A-4600-AD50-B6D8A5EC6623

Q27485730-1FC2CC63-D724-482D-BB6A-D4088DF0840F

Q27485730-36F01FBC-9328-44B3-A41E-4CC3581B6CBE

Q27485730-399432CF-A95C-47ED-9A19-0B1508931751

Q27485730-3FCD7C3F-97C3-4EC0-8AE9-BA95BCE351F6

P304

Q27485730-E11D1EB6-8A5B-47BD-843B-F26824F43887

P31

Q27485730-97C4CCE6-1EC8-4F38-AAFE-55B249D0AD27

P3181

Q27485730-72B74833-EFA5-4860-B096-DC51D8C86E48

P356

Q27485730-8F326796-A04E-49EE-8C0B-7D12A6897174

P433

Q27485730-2107AA12-B7D6-4501-A603-714342AC2EE4

P478

Q27485730-C7444F79-79AC-493E-9D7F-F3D2E4195BCE

P50

Q27485730-532D7B8A-A3E3-4C60-B87C-51A0C9BFCC3D

Q27485730-6E65878B-40A1-4B39-BC15-BBC4DEA5DD5E

P577

Q27485730-C74541A6-0621-42B7-932C-8B2F2F168058

P5875

Q27485730-87708D7A-0356-45E1-BFA7-54FD903A8A2C

P698

Q27485730-EDFD7FE6-930C-41D2-B862-A77B18427F1B

P921

Q27485730-461FBB8D-E28F-490C-B91D-41954237C9EA

Q27485730-6F373869-D451-4F1E-978E-F8C79FCF40FF

P932

Q27485730-4166085A-3469-4ABE-9254-E7869F92239F

P3181

P356

JVI.77.21.11822-11832.2003

P1433

Journal of Virology

P1476

Dengue Virus Induces Novel Cha ...... bilical Vein Endothelial Cells

@en

P2093

David Lapointe

http://www.w3.org/2001/XMLSchema#string

Francis A Ennis

http://www.w3.org/2001/XMLSchema#string

Katherine J Martin

http://www.w3.org/2001/XMLSchema#string

Kris Xhaja

http://www.w3.org/2001/XMLSchema#string

Marcia F Fournier

http://www.w3.org/2001/XMLSchema#string

Nathaly Brizuela

http://www.w3.org/2001/XMLSchema#string

Norma de Bosch

http://www.w3.org/2001/XMLSchema#string

Rajas V Warke

http://www.w3.org/2001/XMLSchema#string

Sunil K Shaw

http://www.w3.org/2001/XMLSchema#string

P2860

Molecular cloning and characterization of two related and interferon-induced 56-kDa and 30-kDa proteins highly similar to 2'-5' oligoadenylate synthetase

Identification of three new members of the phospholipid scramblase gene family

ESDN, a novel neuropilin-like membrane protein cloned from vascular cells with the longest secretory signal sequence among eukaryotes, is up-regulated after vascular injury

IFNs activate toll-like receptor gene expression in viral infections

Plasma membrane phospholipid scramblase 1 is enriched in lipid rafts and interacts with the epidermal growth factor receptor

Use of differential display analysis to assess the effect of human cytomegalovirus infection on the accumulation of cellular RNAs: induction of interferon-responsive RNAs

Molecular definition of a novel human galectin which is immunogenic in patients with Hodgkin's disease

p59OASL, a 2'-5' oligoadenylate synthetase like protein: a novel human gene related to the 2'-5' oligoadenylate synthetase family

Interferon-induced human protein MxA is a GTPase which binds transiently to cellular proteins

Modulation of Dengue virus infection in human cells by alpha, beta, and gamma interferons.

P304

11822-32

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P3181

1241069

http://www.w3.org/2001/XMLSchema#string

P356

10.1128/JVI.77.21.11822-11832.2003

http://www.w3.org/2001/XMLSchema#string

P433

21

http://www.w3.org/2001/XMLSchema#string

P478

77

http://www.w3.org/2001/XMLSchema#string

P50

Alan L. Rothman

P577

2003-11-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

9051655

http://www.w3.org/2001/XMLSchema#string

P698

14557666

http://www.w3.org/2001/XMLSchema#string

P921

P932

229255

http://www.w3.org/2001/XMLSchema#string