Herpesviral latency-associated transcript gene promotes assembly of heterochromatin on viral lytic-gene promoters in latent infection.
about
Repressor element-1 silencing transcription factor/neuronal restrictive silencer factor (REST/NRSF) can regulate HSV-1 immediate-early transcription via histone modificationA chromatin insulator-like element in the herpes simplex virus type 1 latency-associated transcript region binds CCCTC-binding factor and displays enhancer-blocking and silencing activities.Herpes simplex virus-infected cell protein 0 blocks the silencing of viral DNA by dissociating histone deacetylases from the CoREST-REST complexCTCF-dependent chromatin boundary element between the latency-associated transcript and ICP0 promoters in the herpes simplex virus type 1 genomeRole of ND10 nuclear bodies in the chromatin repression of HSV-1A comparison of herpes simplex virus type 1 and varicella-zoster virus latency and reactivationThe molecular basis of herpes simplex virus latencyA cultured affair: HSV latency and reactivation in neuronsAnti-inflammatory activity of Odina wodier Roxb, an Indian folk remedy, through inhibition of toll-like receptor 4 signaling pathwayAn indole alkaloid from a tribal folklore inhibits immediate early event in HSV-2 infected cells with therapeutic efficacy in vaginally infected miceIFI16 restricts HSV-1 replication by accumulating on the hsv-1 genome, repressing HSV-1 gene expression, and directly or indirectly modulating histone modificationsPedilanthus tithymaloides Inhibits HSV Infection by Modulating NF-κB SignalingGenital Herpes: Insights into Sexually Transmitted Infectious DiseaseRestarting Lytic Gene Transcription at the Onset of Herpes Simplex Virus ReactivationNeuronal Stress Pathway Mediating a Histone Methyl/Phospho Switch Is Required for Herpes Simplex Virus Reactivation.Role for A-type lamins in herpesviral DNA targeting and heterochromatin modulationRole of chromatin during herpesvirus infections.Transcriptional coactivator HCF-1 couples the histone chaperone Asf1b to HSV-1 DNA replication componentsHerpes simplex virus VP16, but not ICP0, is required to reduce histone occupancy and enhance histone acetylation on viral genomes in U2OS osteosarcoma cells.Development and evaluation of SYBR Green-I based quantitative PCR assays for herpes simplex virus type 1 whole transcriptome analysis.Control of alpha-herpesvirus IE gene expression by HCF-1 coupled chromatin modification activities.Epigenetic regulation of latent HSV-1 gene expression.Transcription of the herpes simplex virus 1 genome during productive and quiescent infection of neuronal and nonneuronal cells.Changes to euchromatin on LAT and ICP4 following reactivation are more prevalent in an efficiently reactivating strain of HSV-1.Numerous conserved and divergent microRNAs expressed by herpes simplex viruses 1 and 2.Common threads in persistent viral infectionsLytic gene expression is frequent in HSV-1 latent infection and correlates with the engagement of a cell-intrinsic transcriptional responsePolycomb repressive complex 2 targets murine cytomegalovirus chromatin for modification and associates with viral replication centers.Herpes simplex virus immediate-early ICP0 protein inhibits Toll-like receptor 2-dependent inflammatory responses and NF-kappaB signalingHerpes keratitis.Snapshots: chromatin control of viral infection.Deacetylation of the herpes simplex virus type 1 latency-associated transcript (LAT) enhancer and a decrease in LAT abundance precede an increase in ICP0 transcriptional permissiveness at early times postexplant.Epigenetic regulation of varicella-zoster virus open reading frames 62 and 63 in latently infected human trigeminal ganglia.Transcriptional gene silencing in humans.Promoter-associated RNA is required for RNA-directed transcriptional gene silencing in human cells.Tegument protein control of latent herpesvirus establishment and animation.Herpes simplex virus ICP0 promotes both histone removal and acetylation on viral DNA during lytic infection.Three-dimensional normal human neural progenitor tissue-like assemblies: a model of persistent varicella-zoster virus infectionTranscription of the herpes simplex virus latency-associated transcript promotes the formation of facultative heterochromatin on lytic promoters.A 2.5-kilobase deletion containing a cluster of nine microRNAs in the latency-associated-transcript locus of the pseudorabies virus affects the host response of porcine trigeminal ganglia during established latency.
P2860
Q21245133-D39FC412-C8AF-4495-9077-86E29038C003Q24544258-AAD162A9-BE1E-4C95-BE5B-34F56F796131Q24675640-A2485144-0FC9-4F67-8195-DDD9DC49F756Q24682967-9ACB159B-D4EA-40AC-89CA-BF8249A256E0Q26751443-3FC20B44-C4DF-487E-B6F9-B4D8C6B7F832Q26996418-4007844F-19EE-47D4-816E-27B666F545CDQ27001272-D52B5301-3834-44FF-98F1-BF56C13257EDQ27015883-7CD65BF4-1324-49AB-839C-CE73730D2D6CQ27315112-988CD273-28FF-4F92-9608-21BD3714A972Q28534570-5173CC29-8822-4DE8-84A9-B9BAFF7842E1Q28544797-F64C19B8-58DD-4CD4-A49C-6A63F056AFD2Q28548460-D29BBD85-3F64-4306-9273-111116179126Q30235026-5D12CF0A-F34A-4061-BF85-072F06B03680Q30275510-B2973B1A-A575-437F-B88D-2B391662961FQ30689513-44F87763-2A4D-47E2-99E8-2C69146C11D0Q33337126-39C81E81-2CC6-48C7-994A-C034F26903DBQ33346968-FFDC45BA-D37D-4ABD-A713-387EB3AEC432Q33603879-16981715-960F-4538-A1A9-5AF979A822AEQ33614347-B0AA292F-853B-4CAD-8FAB-A6D722E306F2Q33697288-C42DB3D5-44C3-489E-8630-F9D182033E87Q33729222-F1307D17-D93B-404B-B8BF-7B080FC0F3C0Q33729340-99EB0018-7148-4B3D-8EEC-66922DDEF187Q33743904-9AFF22EF-BC94-4CC2-A504-4D632F500A0EQ33747905-F0E3F19D-7514-4751-BDD7-22F2286C7623Q33826615-8D7776D9-C39C-423F-BCC8-A34F67E438A6Q33826650-37B879E4-9BF3-40A9-894D-399E6F16F9D2Q33946164-3C1E0EA0-16BC-4ED1-A7B6-C964F2205BA3Q34141621-F2A8CFD3-5F4B-4E8E-9801-11480A319369Q34178155-802BD76F-294C-4B74-9E88-98EC61691DDCQ34297293-C471ECA7-FB09-4D25-8EC3-434D16DB5C4AQ34315920-8EF39099-20AC-4856-8650-3E3B85493706Q34353449-589F8965-9744-40A5-B730-B25F53BC21CCQ34518058-D8981AD7-D969-4789-81E6-3B751F70E7BCQ34521385-C10CE845-0CAA-497C-AA75-C4A77601A858Q34653770-BB3E3688-1B8C-44ED-9B38-1B59261C0944Q34712750-A200D32B-D7A4-4301-A537-9CDA6EBB2503Q34848465-35640BD0-E6D1-44F6-910F-59E7247D7111Q34916815-5BA0915B-8245-42CA-90CE-093C9F7D9E31Q34986080-0961A1B4-7B55-4390-9818-DC0B6E8B9219Q34992791-8413EA5F-1232-4D32-A12D-AD9963852228
P2860
Herpesviral latency-associated transcript gene promotes assembly of heterochromatin on viral lytic-gene promoters in latent infection.
description
2005 nî lūn-bûn
@nan
2005 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Herpesviral latency-associated ...... promoters in latent infection
@nl
Herpesviral latency-associated ...... promoters in latent infection.
@ast
Herpesviral latency-associated ...... promoters in latent infection.
@en
Herpesviral latency-associated ...... promoters in latent infection.
@en-gb
type
label
Herpesviral latency-associated ...... promoters in latent infection
@nl
Herpesviral latency-associated ...... promoters in latent infection.
@ast
Herpesviral latency-associated ...... promoters in latent infection.
@en
Herpesviral latency-associated ...... promoters in latent infection.
@en-gb
prefLabel
Herpesviral latency-associated ...... promoters in latent infection
@nl
Herpesviral latency-associated ...... promoters in latent infection.
@ast
Herpesviral latency-associated ...... promoters in latent infection.
@en
Herpesviral latency-associated ...... promoters in latent infection.
@en-gb
P2093
P2860
P3181
P356
P1476
Herpesviral latency-associated ...... promoters in latent infection.
@en
P2093
Changhong Zhou
David M Knipe
Donald M Coen
Karen E Johnson
Qing-Yin Wang
Robert C Colgrove
P2860
P304
16055-16059
P3181
P356
10.1073/PNAS.0505850102
P407
P577
2005-10-24T00:00:00Z