| scholarly article | Q13442814 |
| P50 | author | Naoki Yamamoto | Q86902511 |
| P2093 | author name string | Hironori Sato | |
| Yuetsu Tanaka | |||
| Haruka Kamiyama | |||
| Yoshinao Kubo | |||
| Hiroaki Yoshii | |||
| P2860 | cites work | A putative G protein-coupled receptor, RDC1, is a novel coreceptor for human and simian immunodeficiency viruses | Q24524308 |
| HIV and the chemokine system: 10 years later | Q27473020 | ||
| Functional rafts in cell membranes | Q27860768 | ||
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| Chemokine receptors as HIV-1 coreceptors: roles in viral entry, tropism, and disease | Q29616432 | ||
| HIV-1 evades antibody-mediated neutralization through conformational masking of receptor-binding sites | Q29619017 | ||
| Role of cholesterol in human immunodeficiency virus type 1 envelope protein-mediated fusion with host cells | Q30865013 | ||
| Cooperation of multiple CCR5 coreceptors is required for infections by human immunodeficiency virus type 1 | Q33808920 | ||
| Beyond receptor expression: the influence of receptor conformation, density, and affinity in HIV-1 infection | Q34065091 | ||
| Asymmetric requirement for cholesterol in receptor-bearing but not envelope-bearing membranes for fusion mediated by ecotropic murine leukemia virus | Q34341238 | ||
| The role of cholesterol and sphingolipids in chemokine receptor function and HIV-1 envelope glycoprotein-mediated fusion | Q35585420 | ||
| Blocking of HIV-1 infection by targeting CD4 to nonraft membrane domains | Q36370878 | ||
| Stable exposure of the coreceptor-binding site in a CD4-independent HIV-1 envelope protein | Q37207862 | ||
| Unique monoclonal antibody recognizing the third extracellular loop of CXCR4 induces lymphocyte agglutination and enhances human immunodeficiency virus type 1-mediated syncytium formation and productive infection | Q38295129 | ||
| Establishment of a new system for determination of coreceptor usages of HIV based on the human glioma NP-2 cell line | Q38324749 | ||
| CD4 receptor localized to non-raft membrane microdomains supports HIV-1 entry. Identification of a novel raft localization marker in CD4. | Q38348905 | ||
| CD4 and CCR5 constitutively interact at the plasma membrane of living cells: a confocal fluorescence resonance energy transfer-based approach | Q39015489 | ||
| Ezrin, Radixin, and Moesin (ERM) proteins function as pleiotropic regulators of human immunodeficiency virus type 1 infection | Q39149877 | ||
| Inhibitory role of CXCR4 glycan in CD4-independent X4-tropic human immunodeficiency virus type 1 infection and its abrogation in CD4-dependent infection | Q39149882 | ||
| Actin-dependent receptor colocalization required for human immunodeficiency virus entry into host cells. | Q39581009 | ||
| Human immunodeficiency virus type 1 uses lipid raft-colocalized CD4 and chemokine receptors for productive entry into CD4(+) T cells | Q39683422 | ||
| N-Linked glycosylation is required for XC cell-specific syncytium formation by the R peptide-containing envelope protein of ecotropic murine leukemia viruses | Q39787647 | ||
| Detection of microdomains in biomembranes An appraisal of recent developments in freeze-fracture cytochemistry | Q40155272 | ||
| HIV-1 entry into T-cells is not dependent on CD4 and CCR5 localization to sphingolipid-enriched, detergent-resistant, raft membrane domains | Q40690112 | ||
| Evidence for cell surface association between CXCR4 and ganglioside GM3 after gp120 binding in SupT1 lymphoblastoid cells | Q40776242 | ||
| Lipid rafts and HIV pathogenesis: host membrane cholesterol is required for infection by HIV type 1. | Q40788372 | ||
| Membrane raft microdomains mediate lateral assemblies required for HIV-1 infection | Q40818759 | ||
| CXCR4 function requires membrane cholesterol: implications for HIV infection | Q43950699 | ||
| Cholesterol is essential for macrophage inflammatory protein 1 beta binding and conformational integrity of CC chemokine receptor 5. | Q44010372 | ||
| Dynamic reorganization of chemokine receptors, cholesterol, lipid rafts, and adhesion molecules to sites of CD4 engagement | Q45303209 | ||
| Cell biology of virus entry | Q45741575 | ||
| Efficacy and safety analyses of a recombinant human immunodeficiency virus type 1 derived vector system | Q45746979 | ||
| Self-inactivating lentiviral vectors with U3 and U5 modifications. | Q45861229 | ||
| CD4 segregates into specific detergent-resistant T-cell membrane microdomains. | Q54102355 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 23-31 | |
| P577 | publication date | 2009-03-01 | |
| P1433 | published in | Virology | Q7934867 |
| P1476 | title | Raft localization of CXCR4 is primarily required for X4-tropic human immunodeficiency virus type 1 infection | |
| P478 | volume | 386 |
| Q24316027 | Actin-binding protein drebrin regulates HIV-1-triggered actin polymerization and viral infection |
| Q33889483 | CD4-independent human immunodeficiency virus infection involves participation of endocytosis and cathepsin B. |
| Q36553987 | CXCR4-tropic, but not CCR5-tropic, human immunodeficiency virus infection is inhibited by the lipid raft-associated factors, acyclic retinoid analogs, and cholera toxin B subunit |
| Q33990498 | Caveolin-1 modulates HIV-1 envelope-induced bystander apoptosis through gp41. |
| Q91608895 | Cytoplasmic R-peptide of murine leukemia virus envelope protein negatively regulates its interaction with the cell surface receptor |
| Q38872070 | Endocytic Trafficking of HIV gp120 is Mediated by Dynamin and Plays a Role in gp120 Neurotoxicity |
| Q34385257 | Exogenous and endogenous hyaluronic acid reduces HIV infection of CD4(+) T cells |
| Q39724559 | Function of membrane rafts in viral lifecycles and host cellular response |
| Q36888917 | In vivo effect of statins on the expression of the HIV co-receptors CCR5 and CXCR4 |
| Q34451471 | Interaction of pathogens with host cholesterol metabolism |
| Q36482834 | Internalization and axonal transport of the HIV glycoprotein gp120 |
| Q39139156 | Invariant Chain Complexes and Clusters as Platforms for MIF Signaling |
| Q90729693 | Lipid Rafts and Pathogens: The Art of Deception and Exploitation |
| Q28253198 | Lipids in host-pathogen interactions: pathogens exploit the complexity of the host cell lipidome |
| Q38246407 | Membrane organization of virus and target cell plays a role in HIV entry. |
| Q36195192 | Potent and Broad Inhibition of HIV-1 by a Peptide from the gp41 Heptad Repeat-2 Domain Conjugated to the CXCR4 Amino Terminus |
| Q44607630 | Putative cholesterol-binding sites in human immunodeficiency virus (HIV) coreceptors CXCR4 and CCR5. |
| Q58700844 | Role of Ezrin Phosphorylation in HIV-1 Replication |
| Q36156531 | The trinity of the cortical actin in the initiation of HIV-1 infection |
| Q37170464 | Why targeting HDL should work as a therapeutic tool, but has not. |
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