about
Retroviral integration: Site matters: Mechanisms and consequences of retroviral integration site selectionRetroviral DNA IntegrationLive cell imaging of single genomic loci with quantum dot-labeled TALEs.Molecular mechanisms of retroviral integration site selection.Host and viral determinants for MxB restriction of HIV-1 infection.Intasome architecture and chromatin density modulate retroviral integration into nucleosomeChromatin organization at the nuclear pore favours HIV replicationHost Factors in Retroviral Integration and the Selection of Integration Target Sites.A critical role for alternative polyadenylation factor CPSF6 in targeting HIV-1 integration to transcriptionally active chromatin.Sites of retroviral DNA integration: From basic research to clinical applicationsLEDGIN-mediated Inhibition of Integrase-LEDGF/p75 Interaction Reduces Reactivation of Residual Latent HIVNuclear import of APOBEC3F-labeled HIV-1 preintegration complexes.Viral and cellular requirements for the nuclear entry of retroviral preintegration nucleoprotein complexes.Imaging HIV-1 Genomic DNA from Entry through Productive InfectionDirect Visualization of HIV-1 Replication Intermediates Shows that Capsid and CPSF6 Modulate HIV-1 Intra-nuclear Invasion and IntegrationIntegration site selection by retroviruses and transposable elements in eukaryotes.Modeling Viral Spread.Second generation imaging of nuclear/cytoplasmic HIV-1 complexesCapsid-Dependent Host Factors in HIV-1 Infection.Dynamics and regulation of nuclear import and nuclear movements of HIV-1 complexes.Comparative Analysis of HIV-1 and Murine Leukemia Virus Three-Dimensional Nuclear Distributions.Dual role of the chromatin-binding factor PHF13 in the pre- and post-integration phases of HIV-1 replication.Multiplex single-cell visualization of nucleic acids and protein during HIV infection.Cellular and molecular mechanisms of HIV-1 integration targeting.The yeast Ty1 retrotransposon requires components of the nuclear pore complex for transcription and genomic integration.LEDGF/p75 controls 3D-localization of HIV-1 provirus in the nuclear compartment of infected cells.Live-Cell Imaging of Early Steps of Single HIV-1 Infection.
P2860
Q28088514-79DF6786-17CE-440C-8552-BA21B111CA9CQ28596842-34EFA3A9-203D-4F7E-A439-B18BAF3BE618Q30848166-B76243CD-57FD-40B2-A6AF-3A9D53D92E96Q34249653-A430AC0F-A59F-4CAB-A036-E1014CD4746BQ34422979-9B8070EF-6FA2-4B1E-B976-A0F88A380AF1Q35175065-22A650EF-3A92-42D8-92B1-79A76B2113FCQ35196941-C2E8C07C-D170-4DFB-865B-DAD08C653BC1Q35916677-9A6EA3D9-143D-4E24-ADEF-C45EBFF92011Q36646385-E650F8F6-69CB-4010-9D37-36D8536B7B22Q36900663-8CCD7936-9E02-4EC2-992E-2E0A1FABF311Q37035177-47C585A9-F89D-48BE-95EA-70A02F4DCF13Q37377405-1CC2D069-3CD2-4FBF-8AB1-7B76F6821F33Q38150610-9887CA1A-95A5-4A24-B0C3-903B3F336387Q38714324-FE9ED002-630D-4C9D-889E-431B11A1D56BQ38818213-E862A1FA-2F1A-4F14-BA46-F2E9A5CB7BDDQ38912198-DEC3DCCE-3E54-44BA-A28E-CE520275E85AQ38952060-297A430F-D395-4F06-81E6-9BE3E286D392Q38998244-4A28C42A-7008-40CC-8C87-03F104CA4E99Q39320682-E6E13407-74DD-46A8-874C-7F46B4845563Q40075873-58C0209E-06A5-45D1-800E-8FA5D29F5FD4Q40760941-93B03A2F-662A-4D8F-8D13-FAE55478AC80Q41918811-C12E0737-5E57-41E2-B4EB-4D260B745985Q47118553-8B1C1E34-3D32-4AB1-A2CE-FBADC82DE352Q50126703-CE6ECC1B-32F1-43CB-B974-BD50A3D781EAQ54260521-93DC72FA-D691-4DB3-BDDE-BDFEEF096453Q55110777-8EA89028-788D-48E4-87EC-7557DED90427Q55360336-938C12F8-891B-40FE-ABBB-C6939BAE4969
P2860
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
Single-cell imaging of HIV-1 provirus (SCIP).
@en
type
label
Single-cell imaging of HIV-1 provirus (SCIP).
@en
prefLabel
Single-cell imaging of HIV-1 provirus (SCIP).
@en
P2093
P2860
P356
P1476
Single-cell imaging of HIV-1 provirus (SCIP).
@en
P2093
Anna Cereseto
Awatef Allouch
Cristina Di Primio
Daniele Arosio
Rik Gijsbers
Valentina Quercioli
P2860
P304
P356
10.1073/PNAS.1216254110
P407
P577
2013-03-19T00:00:00Z