High-throughput analysis of human cytomegalovirus genome diversity highlights the widespread occurrence of gene-disrupting mutations and pervasive recombination.
about
An Evolutionary View of the Arms Race between Protein Kinase R and Large DNA VirusesCrystal Structure of the Human Cytomegalovirus Glycoprotein B.Cross-Species Rhesus Cytomegalovirus Infection of Cynomolgus Macaques.Polymorphisms and features of cytomegalovirus UL144 and UL146 in congenitally infected neonates with hepatic involvement.The human cytomegalovirus glycoprotein pUL11 acts via CD45 to induce T cell IL-10 secretion.Leukocyte Immunoglobulin-Like Receptor 1-Expressing Human Natural Killer Cell Subsets Differentially Recognize Isolates of Human Cytomegalovirus through the Viral Major Histocompatibility Complex Class I Homolog UL18.Advances in the prevention and treatment of congenital cytomegalovirus infectionDetection of Low Frequency Multi-Drug Resistance and Novel Putative Maribavir Resistance in Immunocompromised Pediatric Patients with CytomegalovirusCytomegalovirus in pregnancy and the neonate.Control of immune ligands by members of a cytomegalovirus gene expansion suppresses natural killer cell activation.Disarming Cellular Alarm Systems-Manipulation of Stress-Induced NKG2D Ligands by Human Herpesviruses.The silent war of CMV in aging and HIV infectionThe Cell Biology of Cytomegalovirus: Implications for Transplantation.On the Analysis of Intrahost and Interhost Viral Populations: Human Cytomegalovirus as a Case Study of Pitfalls and Expectations.Impact of Aging and Cytomegalovirus on Immunological Response to Influenza Vaccination and Infection.Heterogeneity of the Epstein-Barr virus major internal repeat reveals evolutionary mechanisms of EBV and a functional defect in the prototype EBV strain B95-8.Differences in Growth Properties among Two Human Cytomegalovirus Glycoprotein O Genotypes.Chemokines encoded by herpesviruses.Modulation of the Host Environment by Human Cytomegalovirus with Viral Interleukin 10 in Peripheral Blood.Deep Lessons From the Uncultured.Severe Symptomatic Primary Human Cytomegalovirus Infection despite Effective Innate and Adaptive Immune Responses.Comparative Genomics of Amphibian-like Ranaviruses, Nucleocytoplasmic Large DNA Viruses of Poikilotherms.The Impacts of Genome-wide Analyses on our Understanding of Human Herpesvirus Diversity and Evolution.Genetic diversity of equine herpesvirus 1 isolated from neurological, abortigenic and respiratory disease outbreaks.A prominent role of the human cytomegalovirus UL8 glycoprotein restraining pro-inflammatory cytokine production by myeloid cells at late times during infection.Whole genome diversity of inherited chromosomally integrated HHV-6 derived from healthy individuals of diverse geographic origin.Expression levels of glycoprotein O (gO) vary between strains of human cytomegalovirus, influencing the assembly of gH/gL complexes and virion infectivity.Genomic, Recombinational and Phylogenetic Characterization of Global Feline Herpesvirus 1 Isolates.A new era in cytomegalovirus vaccinology: considerations for rational design of next-generation vaccines to prevent congenital cytomegalovirus infectionHCMV-Encoded NK Modulators: Lessons From and Genetic VariationNanopore sequencing and full genome de novo assembly of human cytomegalovirus TB40/E reveals clonal diversity and structural variations
P2860
Q28067827-D3E6FB8E-5475-47F6-A9D5-207E231E7E2FQ35814428-B5E3F873-3167-4C84-A4D1-7B4C19EE05DBQ36187466-BEBB7C2B-D07A-4F57-A088-CBC209574695Q36286363-29DD9B3A-D555-4DC2-B3FA-FAE50BCF4874Q36409239-0E94FEE3-DF84-4EE5-A976-2DC5DDAF8E4DQ36736566-CA3A0359-A09D-4C8E-BF6A-4F755B52E202Q37006043-22E0F715-C521-46C0-96B1-CEDD3BA22EA3Q37242897-0BB0AF9B-C7A3-4D75-B883-925B9BC90E4EQ37643347-46DB2A9B-8638-46F7-B71C-33AB2489967AQ37723095-97A3CD1A-A509-47AB-8FCF-5499CCA4C3FBQ37747044-310D2660-4D7F-481B-AC06-2EA61FD99653Q38592494-AF65E39E-FFDF-4FA5-8A5F-2E94FD155397Q38779938-39E7437B-9C53-440A-9F20-A4561A315DEFQ39100427-F5315D8F-87C7-45AB-848D-DA39E084852EQ39310460-B185AD16-348F-44DA-BB9D-75F1BA49BC56Q40042378-6A95E9EE-9E7F-4234-B66D-921E0282CB36Q40054757-5BCD8D6B-B8F6-410B-8D7C-7B42841622E9Q40067378-0A92A65C-1D7E-4E41-8EEE-6D43779B585DQ40222984-607D3792-E942-485C-B6C7-AD99E9D7C7E7Q40262432-AC444206-5D68-4A84-A13B-1DCD61CF9651Q40392303-A29E1C54-E5CC-4E27-8FB6-9BAA8507C110Q40464417-99920809-B92B-4EC0-86A5-E8843DC320B2Q42778214-2E26356A-8AFD-4B5A-AAB7-52F31DFD824BQ50103342-57E5B681-6B0A-4607-A8BF-85AD5F11BAD3Q50105046-493AEC48-16A4-46BA-9471-1354A8E04FCBQ50284269-7F968EF3-6A95-4B7C-BE11-584C450D6D82Q54216733-6918A5EF-C909-4556-AB83-D1542218E76DQ54244123-05177256-AFE8-4953-95DA-A37A88DDF193Q57072187-69BBB54F-0A97-4C09-B372-7BE3281DCB22Q57486496-7809459B-A27C-4CC1-9D98-CB6642A77FD0Q58803215-96A1EF94-6631-4A43-82C9-5F53056B0B9C
P2860
High-throughput analysis of human cytomegalovirus genome diversity highlights the widespread occurrence of gene-disrupting mutations and pervasive recombination.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
High-throughput analysis of hu ...... s and pervasive recombination.
@ast
High-throughput analysis of hu ...... s and pervasive recombination.
@en
type
label
High-throughput analysis of hu ...... s and pervasive recombination.
@ast
High-throughput analysis of hu ...... s and pervasive recombination.
@en
prefLabel
High-throughput analysis of hu ...... s and pervasive recombination.
@ast
High-throughput analysis of hu ...... s and pervasive recombination.
@en
P2093
P2860
P50
P356
P1433
P1476
High-throughput analysis of hu ...... s and pervasive recombination.
@en
P2093
Ellen Van Damme
Guangdi Li
Jan Dvorak
Jeroen Aerssens
Laurent Busson
Marnix Van Loock
Mirabeau Mbong Ngwese
P2860
P356
10.1128/JVI.00578-15
P407
P577
2015-05-13T00:00:00Z