Evolutionarily conserved herpesviral protein interaction networks
about
An integrated approach to elucidate the intra-viral and viral-cellular protein interaction networks of a gamma-herpesvirusIdentification and comparative analysis of hepatitis C virus-host cell protein interactionsGenome annotation and intraviral interactome for the Streptococcus pneumoniae virulent phage Dp-1Studying protein complexes by the yeast two-hybrid systemImproving the yeast two-hybrid system with permutated fusions proteins: the Varicella Zoster Virus interactome.Tegument Assembly and Secondary Envelopment of AlphaherpesvirusesA beta-herpesvirus with fluorescent capsids to study transport in living cellsA Luciferase Gene Driven by an Alphaherpesviral Promoter Also Responds to Immediate Early Antigens of the Betaherpesvirus HCMV, Allowing Comparative Analyses of Different Human Herpesviruses in One Reporter Cell LineBiologicalNetworks--tools enabling the integration of multi-scale data for the host-pathogen studiesThe murine cytomegalovirus M35 protein antagonizes type I IFN induction downstream of pattern recognition receptors by targeting NF-κB mediated transcriptionThe Herpes Simplex Virus Protein pUL31 Escorts Nucleocapsids to Sites of Nuclear Egress, a Process Coordinated by Its N-Terminal Domain.The C terminus of the large tegument protein pUL36 contains multiple capsid binding sites that function differently during assembly and cell entry of herpes simplex virusThe post-genomic era of biological network alignmentGlobal approaches to study protein-protein interactions among viruses and hostsExtensive co-operation between the Epstein-Barr virus EBNA3 proteins in the manipulation of host gene expression and epigenetic chromatin modification.Detecting protein-protein interactions in vesicular stomatitis virus using a cytoplasmic yeast two hybrid systemHost cell targets of tegument protein VP22 of herpes simplex virus 1.Yeast two hybrid analyses reveal novel binary interactions between human cytomegalovirus-encoded virion proteins.Comparative pathogenesis and systems biology for biodefense virus vaccine development.Domain-domain interactions underlying herpesvirus-human protein-protein interaction networks.The capsid protein encoded by U(L)17 of herpes simplex virus 1 interacts with tegument protein VP13/14.Diversity in genetic in vivo methods for protein-protein interaction studies: from the yeast two-hybrid system to the mammalian split-luciferase system.Intraviral protein interactions of Chandipura virus.Global distribution of Chelonid fibropapilloma-associated herpesvirus among clinically healthy sea turtles.Identification of binary interactions between human cytomegalovirus virion proteins.The Hepatitis E virus intraviral interactomeMolecular interactions of Epstein-Barr virus capsid proteins.The Promise of Proteomics in the Study of Oncogenic Viruses.GraphCrunch 2: Software tool for network modeling, alignment and clustering.Construction and identification of a cDNA library for use in the yeast two-hybrid system from duck embryonic fibroblast cells post-infected with duck enteritis virus.Proteomic characterization of pseudorabies virus extracellular virionsNetwork representations of immune system complexity.Selection of HSV capsids for envelopment involves interaction between capsid surface components pUL31, pUL17, and pUL25Systems biology in immunology: a computational modeling perspective.A low dimensional approach on network characterization.Topology analysis and visualization of Potyvirus protein-protein interaction network.The human cytomegalovirus (HCMV) tegument protein UL94 is essential for secondary envelopment of HCMV virions.Herpes simplex virus 1 VP22 regulates translocation of multiple viral and cellular proteins and promotes neurovirulence.Fusion of a fluorescent protein to the pUL25 minor capsid protein of pseudorabies virus allows live-cell capsid imaging with negligible impact on infection.Interaction between the human cytomegalovirus tegument proteins UL94 and UL99 is essential for virus replication.
P2860
Q24294710-5FA2F816-FBCF-4175-BEA6-E16135FFC83FQ24338554-44D37FBE-0977-4768-A6D8-3740B246A3EAQ24600699-1B72C89A-A35D-41BB-8DEE-F064EF467F22Q24601982-9FC5A4DD-9E07-493B-89ED-416933A4F3B7Q24633667-BB173DEA-9AAF-4E0A-B3A6-8A6293383F39Q26782247-FE847694-E857-4DAF-B131-A5A848DDCEAFQ27334476-D381DFE9-9595-49CB-B58C-9FFA8A09A2B6Q28468422-0BFF2F43-C7F0-4DEA-8449-F3748E0441D3Q28476821-3CAEE09A-E3EB-4434-9A29-7CE6F2CC459DQ30250897-616EC834-6DAD-47AD-B63E-B6F60E756C8AQ30384593-4BAD09B0-32C2-4458-BD19-1B1530D5AE75Q30424771-E1ADFD12-C75C-415F-ACCC-B88AA752D7F1Q30490889-8F46DBAB-4298-4046-BD4A-6065F32E771FQ33703278-C34325A3-CC8A-4C07-9733-BEB2811280B8Q33749934-4B0AEC23-765A-4F63-AAC0-7AAF31517DA8Q33820396-945F546A-1375-4B89-A306-73ED7E4B5EE9Q33852011-F237C18E-D873-48EE-8C5A-8666327D7957Q33869574-D3C7A6FE-1393-4BE6-9823-0B77C432BCACQ33959989-946699F3-1760-40ED-A247-4F7805E85270Q33961484-F8C428E0-FBE2-4C6E-A358-B0F05043F61AQ33964120-81C99AD4-94AA-455A-A597-864DC77244C1Q34280594-A9EA2DD9-16A0-4F52-AB10-4ADA2B1751BCQ34286099-8C98C175-CDC0-4C0E-984C-570AF7AC8BAEQ34446801-B64E5BA1-4D5F-4FCF-AB09-940058396E47Q34457964-9C3BBC21-297E-4ADA-A28B-56C3BFE9D3AEQ34497852-B1865874-9D43-43BB-AB66-750846EB762BQ34529662-A675CA0F-B636-4D36-AC1E-B191D39F2EF6Q34549700-A7531341-0AA0-476B-BCD0-9510C4315151Q34564378-2ED2362C-8E58-47F5-827C-A858F3B9D6D3Q35057277-547814C6-BDE9-4095-9D97-7E879CFF08EDQ35077562-E6111450-4BEB-46D2-957B-429B60A0A937Q35118812-37D33A5E-35B6-4354-B447-E69DEDD3C0EDQ35180608-9B9C36D9-65AE-422E-AF73-A17C926430B7Q35189593-28B1AFB3-40D4-41C0-A017-4053AADE5847Q35347052-182F4335-E017-420E-88DA-FB6C2BE4E0D3Q35437255-D4F45014-EA7E-4C4D-9512-4D3330227E9FQ35826153-80A6C38A-5372-4C17-912C-D0787B6D4394Q35943800-5A586412-7A79-476F-BDB6-CF3B64D19FB2Q35960483-CF92F352-CA06-491A-A65B-7A4FDF927220Q36246343-CE81CBC0-CF55-45E3-BB8B-54BDE9E3EDA0
P2860
Evolutionarily conserved herpesviral protein interaction networks
description
2009 nî lūn-bûn
@nan
2009 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Evolutionarily conserved herpesviral protein interaction networks
@ast
Evolutionarily conserved herpesviral protein interaction networks
@en
Evolutionarily conserved herpesviral protein interaction networks
@en-gb
Evolutionarily conserved herpesviral protein interaction networks
@nl
type
label
Evolutionarily conserved herpesviral protein interaction networks
@ast
Evolutionarily conserved herpesviral protein interaction networks
@en
Evolutionarily conserved herpesviral protein interaction networks
@en-gb
Evolutionarily conserved herpesviral protein interaction networks
@nl
altLabel
Evolutionarily Conserved Herpesviral Protein Interaction Networks
@en
prefLabel
Evolutionarily conserved herpesviral protein interaction networks
@ast
Evolutionarily conserved herpesviral protein interaction networks
@en
Evolutionarily conserved herpesviral protein interaction networks
@en-gb
Evolutionarily conserved herpesviral protein interaction networks
@nl
P2093
P2860
P50
P3181
P1433
P1476
Evolutionarily conserved herpesviral protein interaction networks
@en
P2093
Albrecht von Brunn
Armin Baiker
Björn Titz
Christiane Rutenberg
Christine Zeretzke
Dietlind Rose
Hélène Boulet
Jürgen Haas
Manfred Koegl
Mareike Uhlmann
P2860
P304
P3181
P356
10.1371/JOURNAL.PPAT.1000570
P407
P577
2009-09-01T00:00:00Z