Single-Cell Characterization of Viral Translation-Competent Reservoirs in HIV-Infected Individuals
about
High-throughput Characterization of HIV-1 Reservoir Reactivation Using a Single-Cell-in-Droplet PCR Assay.Combined single-cell quantitation of host and SIV genes and proteins ex vivo reveals host-pathogen interactions in individual cellsA Novel Single-Cell FISH-Flow Assay Identifies Effector Memory CD4+ T cells as a Major Niche for HIV-1 Transcription in HIV-Infected Patients.Homeostatically Maintained Resting Naive CD4+ T Cells Resist Latent HIV Reactivation.Measuring the Size of the Latent Human Immunodeficiency Virus Reservoir: The Present and Future of Evaluating Eradication Strategies.Immunologic characteristics of HIV-infected individuals who make broadly neutralizing antibodies.The Alphabet Soup of HIV Reservoir Markers.Proviral Latency, Persistent Human Immunodeficiency Virus Infection, and the Development of Latency Reversing Agents.Differentiating Immune Cell Targets in Gut-Associated Lymphoid Tissue for HIV Cure.RNA flow cytometric FISH for investigations into HIV immunology, vaccination and cure strategies.Multiparametric characterization of rare HIV-infected cells using an RNA-flow FISH technique.Pharmacologic HIV-1 Nef blockade promotes CD8 T cell-mediated elimination of latently HIV-1-infected cells in vitro.Single-cell analysis of HIV-1 transcriptional activity reveals expression of proviruses in expanded clones during ART.Relationship between Measures of HIV Reactivation and Decline of the Latent Reservoir under Latency-Reversing Agents.FISHing Out the Hidden Enemy: Advances in Detecting and Measuring Latent HIV-Infected Cells.Guidelines for the use of flow cytometry and cell sorting in immunological studies.T cells with low CD2 levels express reduced restriction factors and are preferentially infected in therapy naïve chronic HIV-1 patients.Multiplex single-cell visualization of nucleic acids and protein during HIV infection.What do we measure when we measure cell-associated HIV RNA.Tools for Visualizing HIV in Cure Research.Viral protein Nef is detected in plasma of half of HIV-infected adults with undetectable plasma HIV RNA.Inducible HIV RNA transcription assays to measure HIV persistence: pros and cons of a compromise.Recent progress in understanding HIV reservoirs.Assays to Measure Latency, Reservoirs, and Reactivation.Beyond the replication-competent HIV reservoir: transcription and translation-competent reservoirs.Clonal CD4+ T cells in the HIV-1 latent reservoir display a distinct gene profile upon reactivation.5' Rapid Amplification of cDNA Ends and Illumina MiSeq Reveals B Cell Receptor Features in Healthy Adults, Adults With Chronic HIV-1 Infection, Cord Blood, and Humanized Mice.Ultra-Sensitive HIV-1 Latency Viral Outgrowth Assays Using Humanized Mice.Characterization of designed, synthetically accessible bryostatin analog HIV latency reversing agents.Uninfected Bystander Cells Impact the Measurement of HIV-Specific Antibody-Dependent Cellular Cytotoxicity Responses.HIV LTR-Driven Antisense RNA by Itself Has Regulatory Function and May Curtail Virus Reactivation From Latency.The RNA surveillance proteins UPF1, UPF2 and SMG6 affect HIV-1 reactivation at a post-transcriptional level.Visualization of HIV-1 RNA Transcription from Integrated HIV-1 DNA in Reactivated Latently Infected CellsA deadly dance: the choreography of host-pathogen interactions, as revealed by single-cell technologies
P2860
Q33817708-C43A7021-0563-4E28-8C35-A4DD0041546AQ33897996-CDB33396-41C5-487D-9880-18282FD39731Q33911247-CFE84EA9-0438-4C31-8937-EC55F592EFB5Q37459228-9329DA79-AEC0-4867-8BF2-0E3A6A99361CQ38682297-77917EFD-29B9-4C22-86C7-636EC1A6A52CQ39108760-F0C963D2-CCB1-4536-8A9E-0792A8720CA9Q39237000-EB5F5B0F-3A7A-4610-A066-F44900DCC438Q39315697-35142A22-D2E2-486A-BAEF-7F5286548ECEQ40053061-D5BA95C5-1BAE-4121-A2FD-A2225048EDFEQ40053205-03F08919-8118-4422-ADB6-80B66C9C298AQ40054042-60971A11-B060-43A0-8681-094E5BF145C9Q40054912-268D3080-EB9C-4169-8B56-8FF671161416Q40239429-63366B66-64BC-4BE2-AF34-2178034B4E61Q40331404-8F280E3A-FCF6-4A8A-84D1-CD91D4B44555Q41676254-746DB448-39C3-499C-8D3B-C213DEA7E045Q41918189-62A2D773-44B3-4288-AA9E-347C847B40A9Q41929461-9CFEC560-F450-41C9-A61F-7FBA5EF5F4E6Q47118553-EC9BDB6E-0719-4978-BDD5-257AE83A8C13Q47548192-7D616410-31BF-4931-A90E-9FBA3A618AC7Q47548551-9A1245BB-9E6E-4D64-B928-DFDD17EEE4FDQ47549310-7BF77F28-AB4A-4C83-9B49-63E65A364910Q47552344-1595A4F9-3DE1-445F-8C6C-92E6B3F632B0Q47566696-03F96EDB-7642-4387-ABDB-81150A9E8502Q47600035-FDE7C381-300B-4BEC-9646-109A9161401AQ48113493-B4672737-419F-40EA-8545-CA0C3BEB9931Q52568482-E20DE318-CAF2-4249-8F81-3951DB3D7A79Q52597630-015DE44A-34AB-4893-B987-EA873C7196D6Q52647754-8DD19DD8-F169-4175-9A5C-6C114B95E4ECQ54978212-809F064A-2A08-45E3-973B-CD30B93DA8B2Q55411165-4519339D-1614-4C3C-9D95-3BB7D9D19141Q55424316-6CC9BA1D-9571-4471-9A21-BE482B391EE9Q55514032-CEFB68EF-DBAA-488E-BCB4-4715DBCEE2A6Q57064408-8C29EE8A-080A-4614-9C89-4C644ECF1C30Q58608162-A80D2D93-14C0-40E9-9258-0FA9C13DC7B0
P2860
Single-Cell Characterization of Viral Translation-Competent Reservoirs in HIV-Infected Individuals
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
2016年论文
@zh
2016年论文
@zh-cn
name
Single-Cell Characterization o ...... rs in HIV-Infected Individuals
@ast
Single-Cell Characterization o ...... rs in HIV-Infected Individuals
@en
type
label
Single-Cell Characterization o ...... rs in HIV-Infected Individuals
@ast
Single-Cell Characterization o ...... rs in HIV-Infected Individuals
@en
prefLabel
Single-Cell Characterization o ...... rs in HIV-Infected Individuals
@ast
Single-Cell Characterization o ...... rs in HIV-Infected Individuals
@en
P2093
P2860
P50
P1433
P1476
Single-Cell Characterization o ...... rs in HIV-Infected Individuals
@en
P2093
Bruce D Walker
Daniel E Kaufmann
Filippos Porichis
Gloria-Gabrielle Delgado
Jean-Pierre Routy
Jonathan Richard
Nathalie Brassard
Nirmin Alsahafi
Roxanne Charlebois
Rémi Fromentin
P2860
P304
P356
10.1016/J.CHOM.2016.07.015
P577
2016-08-18T00:00:00Z