Phylogenetic approach reveals that virus genotype largely determines HIV set-point viral load
about
Assessing predicted HIV-1 replicative capacity in a clinical settingLow prevalence of transmitted drug resistance in patients newly diagnosed with HIV-1 infection in Sweden 2003-2010Inferring the source of transmission with phylogenetic dataHIV-1 infections with multiple founders are associated with higher viral loads than infections with single foundersSimultaneously estimating evolutionary history and repeated traits phylogenetic signal: applications to viral and host phenotypic evolutionAn HIV epidemic model based on viral load dynamics: value in assessing empirical trends in HIV virulence and community viral loadWhole genome deep sequencing of HIV-1 reveals the impact of early minor variants upon immune recognition during acute infection.Emerging Concepts of Data Integration in Pathogen Phylodynamics.The contribution of viral genotype to plasma viral set-point in HIV infectionParent-offspring regression to estimate the heritability of an HIV-1 trait in a realistic setup.Evidence that hepatitis C virus genome partly controls infection outcome.Viral genetic variation accounts for a third of variability in HIV-1 set-point viral load in Europe.Is the virulence of HIV changing? A meta-analysis of trends in prognostic markers of HIV disease progression and transmission.Virulence and pathogenesis of HIV-1 infection: an evolutionary perspectiveTransmission selects for HIV-1 strains of intermediate virulence: a modelling approach.Timing and order of transmission events is not directly reflected in a pathogen phylogeny.The natural history of HIV infection.Eight challenges in phylodynamic inference.A novel Acute Retroviral Syndrome Severity Score predicts the key surrogate markers for HIV-1 disease progression.Has the rate of CD4 cell count decline before initiation of antiretroviral therapy changed over the course of the Dutch HIV epidemic among MSM?Transmitted virus fitness and host T cell responses collectively define divergent infection outcomes in two HIV-1 recipients.Vaccines that stimulate T cell immunity to HIV-1: the next stepHost genetic and viral determinants of HIV-1 RNA set point among HIV-1 seroconverters from sub-saharan Africa.Immuno-epidemiological modeling of HIV-1 predicts high heritability of the set-point virus load, while selection for CTL escape dominates virulence evolutionHigh heritability is compatible with the broad distribution of set point viral load in HIV carriers.Immune-mediated attenuation of HIV-1Variable effect of co-infection on the HIV infectivity: within-host dynamics and epidemiological significance.Interplay between HIV-1 and Host Genetic Variation: A Snapshot into Its Impact on AIDS and Therapy Response.Estimating the Respective Contributions of Human and Viral Genetic Variation to HIV ControlTreatment-associated polymorphisms in protease are significantly associated with higher viral load and lower CD4 count in newly diagnosed drug-naive HIV-1 infected patientsHIV-1 dynamics: a reappraisal of host and viral factors, as well as methodological issues.Vertical T cell immunodominance and epitope entropy determine HIV-1 escape.Partner characteristics predicting HIV-1 set point in sexually acquired HIV-1 among African seroconverters.Cumulative impact of host and viral factors on HIV-1 viral-load control during early infectionTransmission of Non-B HIV Subtypes in the United Kingdom Is Increasingly Driven by Large Non-Heterosexual Transmission ClustersAccessory genes confer a high replication rate to virulent feline immunodeficiency virus.Rapid, complex adaptation of transmitted HIV-1 full-length genomes in subtype C-infected individuals with differing disease progressionHIV-1 transmission between MSM and heterosexuals, and increasing proportions of circulating recombinant forms in the Nordic Countries.A genome-to-genome analysis of associations between human genetic variation, HIV-1 sequence diversity, and viral control.HIV Maintains an Evolving and Dispersed Population in Multiple Tissues during Suppressive Combined Antiretroviral Therapy in Individuals with Cancer.
P2860
Q28477801-4477E194-B5C0-490A-8E79-587695A18027Q28481603-47B260E4-96DE-453B-A57E-9B22D0E36FC7Q28537788-3507A1E6-5329-42BC-BC10-7C53D5340624Q28606620-8211BDA1-DC41-4677-8DC8-10DB5B8CAA88Q28652426-1296DEFF-D482-4FC7-874F-D326E3A89C5EQ30363755-EDF00702-1A19-40B2-81E8-8828D42E4FC9Q30469621-DBFB8A90-5E77-43D5-AE60-0115B339374BQ31160235-975AF14B-F413-4244-A157-D61CA67072F1Q33553778-C01F54A6-7FEC-40FE-9530-BDF4FDFBD82DQ33722738-791A975E-87C1-4E55-8DB7-E6BF09AB1B1CQ33746744-7763027C-9F48-47BF-B570-E0D07BF9BC19Q33788085-A961E9F5-A902-40FD-B0BA-E26E080BFD9EQ34029430-B10C8EF7-9D05-49C6-8A24-D93C28C97944Q34040248-4E0E32B0-C36A-4F13-932A-C97D4EE05C28Q34055207-B87F5FA6-B7E7-4E49-BB1E-5C40E3961AC7Q34064859-0021D5F5-04CF-43B9-8F51-062D91E36380Q34337675-F985EA17-5CB9-4631-932D-794B508E8795Q34470326-C397DE4E-626A-4D16-B18A-A5B70DD01789Q34662516-55125A69-9866-4C06-BF7D-27CB991DDA86Q34749592-D8DFB182-4BA2-4D30-A393-D31C0A1C308EQ34874985-B60428CA-0226-422B-929C-3862945F1829Q35073079-265067F4-79FA-4917-A0B1-DF17AA4B0F40Q35115540-F298CCBE-ECE8-456E-A56C-A858B8FBBA8DQ35529735-D689E798-2B6F-498F-9EF5-62014DA349B7Q35556945-69966C82-D427-42A9-8E79-7775E0D6BE70Q35798108-3F991414-7560-47CA-A0A9-2C83EA414F68Q35914310-1C457FFF-6463-4C13-8D38-EE4EFE70FDD7Q35993707-2D9E92A0-4917-4F69-A7D5-716EABA25BB6Q36275248-10ECD611-BF9B-4485-95D5-6E3DBDBD75F0Q36367759-A84D4AE8-3A9A-4818-A960-4198D7FECB7FQ36395847-1B836E28-42BF-4477-9F03-95336C3D86FEQ36497283-4222D779-C15F-424E-88A7-40C978C0E07AQ36509600-70BA3A0B-716C-44F2-A2B4-C05E0DE73369Q36559632-FDB90B94-C1A4-49FC-9834-D99C472F97EEQ36745253-40B4FA54-75E9-495A-9600-1E9B74E6771DQ36978615-7E9CAC45-BC3C-49B8-BC45-E1623581AE27Q37039116-BB07126A-1D60-49B0-96C7-7443EAB70D36Q37186690-7585D69E-316D-4080-992E-CD345001BA3EQ37254045-708EE9E6-66FA-4C98-9F49-17427C0763FCQ37300442-352AA6EF-27A7-4F29-9C3A-B8E6FC9E37E5
P2860
Phylogenetic approach reveals that virus genotype largely determines HIV set-point viral load
description
2010 nî lūn-bûn
@nan
2010 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Phylogenetic approach reveals ...... mines HIV set-point viral load
@ast
Phylogenetic approach reveals ...... mines HIV set-point viral load
@en
Phylogenetic approach reveals ...... mines HIV set-point viral load
@nl
type
label
Phylogenetic approach reveals ...... mines HIV set-point viral load
@ast
Phylogenetic approach reveals ...... mines HIV set-point viral load
@en
Phylogenetic approach reveals ...... mines HIV set-point viral load
@nl
prefLabel
Phylogenetic approach reveals ...... mines HIV set-point viral load
@ast
Phylogenetic approach reveals ...... mines HIV set-point viral load
@en
Phylogenetic approach reveals ...... mines HIV set-point viral load
@nl
P2093
P2860
P50
P3181
P1433
P1476
Phylogenetic approach reveals ...... mines HIV set-point viral load
@en
P2093
Amalio Telenti
Andri Rauch
Cyril Shah
Philippe Bürgisser
Pietro L Vernazza
P2860
P304
P3181
P356
10.1371/JOURNAL.PPAT.1001123
P407
P50
P577
2010-09-30T00:00:00Z