| scholarly article | Q13442814 |
| P356 | DOI | 10.1128/JVI.02606-10 |
| P8608 | Fatcat ID | release_viaukvxsubefbdudwbqlplhf4m |
| P3181 | OpenCitations bibliographic resource ID | 690788 |
| P932 | PMC publication ID | 3126276 |
| P698 | PubMed publication ID | 21307188 |
| P50 | author | Paul Digard | Q40060981 |
| Maria João Amorim | Q41839088 | ||
| Emily A Bruce | Q55445089 | ||
| Robert Mahen | Q56065753 | ||
| P2093 | author name string | Agnes Foeglein | |
| Eliot K C Read | |||
| Amanda D Stuart | |||
| P2860 | cites work | Optineurin links myosin VI to the Golgi complex and is involved in Golgi organization and exocytosis | Q24300284 |
| Influenza virus M2 protein mediates ESCRT-independent membrane scission | Q24634367 | ||
| In migrating fibroblasts, recycling receptors are concentrated in narrow tubules in the pericentriolar area, and then routed to the plasma membrane of the leading lamella | Q24657613 | ||
| Rab11 regulates recycling through the pericentriolar recycling endosome | Q24681897 | ||
| Trafficking of Sendai virus nucleocapsids is mediated by intracellular vesicles | Q27325499 | ||
| Nuclear traffic of influenza virus proteins and ribonucleoprotein complexes | Q27864127 | ||
| The Rab11 pathway is required for influenza A virus budding and filament formation | Q28278360 | ||
| Association of Rab25 and Rab11a with the apical recycling system of polarized Madin-Darby canine kidney cells | Q28293127 | ||
| Alteration of intracellular traffic by monensin; mechanism, specificity and relationship to toxicity | Q29012249 | ||
| Direct observation of individual endogenous protein complexes in situ by proximity ligation | Q29616032 | ||
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| Arf6 and microtubules in adhesion-dependent trafficking of lipid rafts. | Q30439113 | ||
| Microtubules and actin filaments are not critically involved in the biogenesis of epithelial cell surface polarity | Q30442334 | ||
| Using single-particle tracking to study nuclear trafficking of viral genes | Q30447392 | ||
| Cellular proteins in influenza virus particles | Q33340974 | ||
| Vaccinia virus intracellular movement is associated with microtubules and independent of actin tails | Q33849999 | ||
| The influenza virus nucleoprotein: a multifunctional RNA-binding protein pivotal to virus replication. | Q34119838 | ||
| Individual influenza A virus mRNAs show differential dependence on cellular NXF1/TAP for their nuclear export | Q34641761 | ||
| Influenza virus budding does not require a functional AAA+ ATPase, VPS4 | Q34689103 | ||
| NS1 proteins of avian influenza A viruses can act as antagonists of the human alpha/beta interferon response. | Q35784659 | ||
| Association of influenza virus NP and M1 proteins with cellular cytoskeletal elements in influenza virus-infected cells | Q35880794 | ||
| Influenza virus hemagglutinin and neuraminidase, but not the matrix protein, are required for assembly and budding of plasmid-derived virus-like particles | Q35914321 | ||
| Host cell dependence of viral morphology | Q36097986 | ||
| Microtubule-acting drugs lead to the nonpolarized delivery of the influenza hemagglutinin to the cell surface of polarized Madin-Darby canine kidney cells | Q36215887 | ||
| Iterative fractionation of recycling receptors from lysosomally destined ligands in an early sorting endosome | Q36222118 | ||
| Receptor-mediated transcytosis of IgA in MDCK cells is via apical recycling endosomes | Q36234135 | ||
| Effect of cytochalasin B on the maturation of enveloped viruses | Q36342737 | ||
| Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell | Q36392210 | ||
| Centrosome and retroviruses: the dangerous liaisons | Q36791138 | ||
| Aggresomes and pericentriolar sites of virus assembly: cellular defense or viral design? | Q36951982 | ||
| Mutational analysis of cis-acting RNA signals in segment 7 of influenza A virus | Q36974640 | ||
| A complicated message: Identification of a novel PB1-related protein translated from influenza A virus segment 2 mRNA. | Q37275127 | ||
| Influenza virus morphogenesis and budding | Q37316167 | ||
| Hydrolysis of GTP on rab11 is required for the direct delivery of transferrin from the pericentriolar recycling compartment to the cell surface but not from sorting endosomes | Q37387876 | ||
| Apical trafficking in epithelial cells: signals, clusters and motors | Q37634760 | ||
| Genome packaging in influenza A virus | Q37643150 | ||
| Modulation of nuclear localization of the influenza virus nucleoprotein through interaction with actin filaments. | Q39551880 | ||
| Interaction of the influenza virus nucleoprotein with the cellular CRM1-mediated nuclear export pathway | Q39601251 | ||
| Involvement of vesicular trafficking system in membrane targeting of the progeny influenza virus genome | Q39679163 | ||
| The transmembrane domain and cytoplasmic tail of herpes simplex virus type 1 glycoprotein H play a role in membrane fusion | Q39685296 | ||
| Nuclear dynamics of influenza A virus ribonucleoproteins revealed by live-cell imaging studies | Q39801069 | ||
| Budding of filamentous and non-filamentous influenza A virus occurs via a VPS4 and VPS28-independent pathway | Q39838203 | ||
| A plasmid-based reverse genetics system for influenza A virus. | Q39874909 | ||
| Visualization of microtubule-mediated transport of influenza viral progeny ribonucleoprotein | Q40074252 | ||
| Identification of the domains of the influenza A virus M1 matrix protein required for NP binding, oligomerization and incorporation into virions | Q40108978 | ||
| Identification of cellular interaction partners of the influenza virus ribonucleoprotein complex and polymerase complex using proteomic-based approaches | Q40176125 | ||
| Nuclear export of influenza A virus mRNAs requires ongoing RNA polymerase II activity | Q40203496 | ||
| Increased amounts of the influenza virus nucleoprotein do not promote higher levels of viral genome replication | Q40489247 | ||
| Efficient generation and growth of influenza virus A/PR/8/34 from eight cDNA fragments | Q40551696 | ||
| Regulation of angiotensin II type 1A receptor intracellular retention, degradation, and recycling by Rab5, Rab7, and Rab11 GTPases | Q40601352 | ||
| A functional link between the actin cytoskeleton and lipid rafts during budding of filamentous influenza virions | Q40700277 | ||
| beta 2-adrenergic receptor internalization, endosomal sorting, and plasma membrane recycling are regulated by rab GTPases | Q40873743 | ||
| Modification of cytoskeleton and prosome networks in relation to protein synthesis in influenza A virus-infected LLC-MK2 cells | Q41086385 | ||
| The formation of fowl plague virus antigens in infected cells, as studied with fluorescent antibodies | Q41570555 | ||
| Kinesin-dependent movement on microtubules precedes actin-based motility of vaccinia virus | Q42823574 | ||
| Lipid raft-dependent targeting of the influenza A virus nucleoprotein to the apical plasma membrane | Q45135653 | ||
| NS2/NEP protein regulates transcription and replication of the influenza virus RNA genome | Q45386145 | ||
| Functional domains of the influenza A virus PB2 protein: identification of NP- and PB1-binding sites | Q45662724 | ||
| Complex formation between influenza virus polymerase proteins expressed in Xenopus oocytes | Q45843373 | ||
| Nuclear transport of influenza virus ribonucleoproteins: the viral matrix protein (M1) promotes export and inhibits import | Q45854241 | ||
| Design and validation of a tool for neurite tracing and analysis in fluorescence microscopy images | Q79854275 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | microtubule | Q189933 |
| influenza A virus | Q834390 | ||
| P1104 | number of pages | 14 | |
| P304 | page(s) | 4143-4156 | |
| P577 | publication date | 2011-02-09 | |
| P1433 | published in | Journal of Virology | Q1251128 |
| P1476 | title | A Rab11- and microtubule-dependent mechanism for cytoplasmic transport of influenza A virus viral RNA | |
| P478 | volume | 85 |
| Q61449744 | A Comprehensive Review on the Interaction Between the Host GTPase Rab11 and Influenza A Virus |
| Q57798558 | A Defect in Influenza A Virus Particle Assembly Specific to Primary Human Macrophages |
| Q27336454 | A Mason-Pfizer Monkey virus Gag-GFP fusion vector allows visualization of capsid transport in live cells and demonstrates a role for microtubules |
| Q35006697 | A comprehensive map of the influenza A virus replication cycle |
| Q45324060 | A proteomic survey of Junín virus interactions with human proteins reveals host factors required for arenavirus replication. |
| Q38925051 | Actin-myosin network is required for proper assembly of influenza virus particles. |
| Q56996774 | Advancements in Host-Based Interventions for Influenza Treatment |
| Q36554219 | An overlapping protein-coding region in influenza A virus segment 3 modulates the host response |
| Q92921797 | Apical Trafficking Pathways of Influenza A Virus HA and NA via Rab17- and Rab23-Positive Compartments |
| Q21560807 | Apical transport of influenza A virus ribonucleoprotein requires Rab11-positive recycling endosome |
| Q37982058 | Association of influenza virus proteins with membrane rafts. |
| Q38270617 | At the centre: influenza A virus ribonucleoproteins |
| Q47264095 | Broad Spectrum Inhibitor of Influenza A and B Viruses Targeting the Viral Nucleoprotein. |
| Q59350046 | Budding of Ebola Virus Particles Requires the Rab11-Dependent Endocytic Recycling Pathway |
| Q40639022 | Clustering of Rab11 vesicles in influenza A virus infected cells creates hotspots containing the 8 viral ribonucleoproteins |
| Q34720292 | Colocalization of different influenza viral RNA segments in the cytoplasm before viral budding as shown by single-molecule sensitivity FISH analysis |
| Q36372754 | Critical role of Rab11a-mediated recycling endosomes in the assembly of type I parainfluenza viruses |
| Q37336660 | Cytoplasmic granule formation and translational inhibition of nodaviral RNAs in the absence of the double-stranded RNA binding protein B2 |
| Q26782250 | Exosome Biogenesis, Regulation, and Function in Viral Infection |
| Q36607885 | Exploitation of Cellular Cytoskeletons and Signaling Pathways for Cell Entry by Kaposi's Sarcoma-Associated Herpesvirus and the Closely Related Rhesus Rhadinovirus |
| Q40273614 | Filamentous Influenza Viruses. |
| Q61798802 | Friend or Foe: The Role of the Cytoskeleton in Influenza A Virus Assembly |
| Q40054837 | Functional association of cellular microtubules with viral capsid assembly supports efficient hepatitis B virus replication |
| Q60949215 | Global Interactomics Connect Nuclear Mitotic Apparatus Protein NUMA1 to Influenza Virus Maturation |
| Q27314862 | HIV-1 and M-PMV RNA Nuclear Export Elements Program Viral Genomes for Distinct Cytoplasmic Trafficking Behaviors. |
| Q34387725 | Highly dynamic microtubules improve the effectiveness of early stages of human influenza A/NWS/33 virus infection in LLC-MK2 cells |
| Q38974742 | Histone deacetylase 6 inhibits influenza A virus release by downregulating the trafficking of viral components to the plasma membrane via its substrate, acetylated microtubules |
| Q41924199 | Human Metapneumovirus Induces Formation of Inclusion Bodies for Efficient Genome Replication and Transcription |
| Q35192704 | Human immunodeficiency virus rev-binding protein is essential for influenza a virus replication and promotes genome trafficking in late-stage infection |
| Q92855169 | IFITM3 Clusters on Virus Containing Endosomes and Lysosomes Early in the Influenza A Infection of Human Airway Epithelial Cells |
| Q27341132 | Identification of a novel splice variant form of the influenza A virus M2 ion channel with an antigenically distinct ectodomain |
| Q36334325 | Infection of Mouse Macrophages by Seasonal Influenza Viruses Can Be Restricted at the Level of Virus Entry and at a Late Stage in the Virus Life Cycle |
| Q56981340 | Influenza A Virus Cell Entry, Replication, Virion Assembly and Movement |
| Q40540874 | Influenza A Virus Hemagglutinin is Required for the Assembly of Viral Components Including Bundled vRNPs at the Lipid Raft |
| Q38703166 | Influenza A Virus NS1 Protein Promotes Efficient Nuclear Export of Unspliced Viral M1 mRNA. |
| Q60954913 | Influenza A Virus NS1 Protein Suppresses JNK1-Dependent Autophagosome Formation Mediated by Rab11a Recycling Endosomes |
| Q40485672 | Influenza A virus nucleoprotein targets subnuclear structures. |
| Q39259937 | Influenza A virus progeny vRNP trafficking in live infected cells studied with the virus-encoded fluorescently tagged PB2 protein |
| Q64064589 | Influenza A virus ribonucleoproteins form liquid organelles at endoplasmic reticulum exit sites |
| Q30385238 | Influenza A virus ribonucleoproteins modulate host recycling by competing with Rab11 effectors. |
| Q30616850 | Influenza A virus uses intercellular connections to spread to neighboring cells |
| Q27316852 | Influenza Virus Induces Cholesterol-Enriched Endocytic Recycling Compartments for Budozone Formation via Cell Cycle-Independent Centrosome Maturation |
| Q27330190 | Influenza a virus assembly intermediates fuse in the cytoplasm |
| Q40399590 | Influenza infection modulates vesicular trafficking and induces Golgi complex disruption |
| Q45325020 | Influenza virus genome reaches the plasma membrane via a modified endoplasmic reticulum and Rab11-dependent vesicles |
| Q39404333 | Interaction of influenza A virus matrix protein with RACK1 is required for virus release |
| Q30366402 | Interactome analysis of the influenza A virus transcription/replication machinery identifies protein phosphatase 6 as a cellular factor required for efficient virus replication. |
| Q38671426 | Intracellular Colocalization of Influenza Viral RNA and Rab11A is Dependent upon Microtubule Filaments |
| Q30538778 | Intracellular transport of the measles virus ribonucleoprotein complex is mediated by Rab11A-positive recycling endosomes and drives virus release from the apical membrane of polarized epithelial cells |
| Q36689670 | Journey to the Center of the Cell: Current Nanocarrier Design Strategies Targeting Biopharmaceuticals to the Cytoplasm and Nucleus |
| Q45325839 | KIF13A mediates trafficking of influenza A virus ribonucleoproteins |
| Q92390278 | Local structural changes of the influenza A virus ribonucleoprotein complex by single mutations in the specific residues involved in efficient genome packaging |
| Q39373886 | Microtubule Regulation and Function during Virus Infection |
| Q35665997 | Microtubule- and dynein-dependent nuclear trafficking of rhesus rhadinovirus in rhesus fibroblasts |
| Q92812423 | Microtubules in Influenza Virus Entry and Egress |
| Q36171824 | Modeling the intracellular dynamics of influenza virus replication to understand the control of viral RNA synthesis. |
| Q36281184 | Mumps Virus Is Released from the Apical Surface of Polarized Epithelial Cells, and the Release Is Facilitated by a Rab11-Mediated Transport System. |
| Q38704994 | Mutations in the Transmembrane Domain and Cytoplasmic Tail of Hendra Virus Fusion Protein Disrupt Virus-Like-Particle Assembly |
| Q40110896 | Native morphology of influenza virions |
| Q30388331 | Networks of Host Factors that Interact with NS1 Protein of Influenza A Virus |
| Q36760084 | Nucleozin targets cytoplasmic trafficking of viral ribonucleoprotein-Rab11 complexes in influenza A virus infection |
| Q38832421 | Polycistronic Expression of the Influenza A Virus RNA-Dependent RNA Polymerase by Using the Thosea asigna Virus 2A-Like Self-Processing Sequence |
| Q92480492 | Quantitative live cell imaging reveals influenza virus manipulation of Rab11A transport through reduced dynein association |
| Q35077509 | RAB11A is essential for transport of the influenza virus genome to the plasma membrane |
| Q37847615 | Rab11 proteins in health and disease |
| Q32182890 | Rab33B Controls Hepatitis B Virus Assembly by Regulating Core Membrane Association and Nucleocapsid Processing |
| Q35024610 | Rab6 dependent post-Golgi trafficking of HSV1 envelope proteins to sites of virus envelopment |
| Q26752566 | Recycling Endosomes and Viral Infection |
| Q39437773 | Replication-competent influenza A virus that encodes a split-green fluorescent protein-tagged PB2 polymerase subunit allows live-cell imaging of the virus life cycle |
| Q113265089 | Respiratory syncytial virus ribonucleoproteins hijack microtubule Rab11 dependent transport for intracellular trafficking |
| Q36401203 | Ribosomal frameshifting used in influenza A virus expression occurs within the sequence UCC_UUU_CGU and is in the +1 direction |
| Q98771313 | Role of Extracellular Vesicles in Influenza Virus Infection |
| Q39393272 | Role of Host Genes in Influenza Virus Replication |
| Q38061996 | Role of the Rab11 pathway in negative-strand virus assembly |
| Q57038969 | Salinomycin Inhibits Influenza Virus Infection by Disrupting Endosomal Acidification and Viral Matrix Protein 2 Function |
| Q38715617 | Selective incorporation of vRNP into influenza A virions determined by its specific interaction with M1 protein |
| Q83500618 | Single-Virus Tracking: From Imaging Methodologies to Virological Applications |
| Q37547146 | Specific nucleoprotein residues affect influenza virus morphology. |
| Q39099407 | Structural insights into RNA synthesis by the influenza virus transcription-replication machine |
| Q40192690 | Suppression of PmRab11 inhibits YHV infection in Penaeus monodon. |
| Q26744324 | The Feat of Packaging Eight Unique Genome Segments |
| Q30543691 | The Us2 gene product of herpes simplex virus 2 is a membrane-associated ubiquitin-interacting protein |
| Q41627682 | The amino-terminal region of the neuraminidase protein from avian H5N1 influenza virus is important for its biosynthetic transport to the host cell surface. |
| Q37123163 | The amphipathic helix of influenza A virus M2 protein is required for filamentous bud formation and scission of filamentous and spherical particles |
| Q40559054 | The host protein CLUH participates in the subnuclear transport of influenza virus ribonucleoprotein complexes |
| Q36155624 | The influenza A virus PB2, PA, NP, and M segments play a pivotal role during genome packaging |
| Q33931158 | The nuclear export protein of H5N1 influenza A viruses recruits Matrix 1 (M1) protein to the viral ribonucleoprotein to mediate nuclear export |
| Q40509507 | The temporally controlled expression of Drongo, the fruit fly homolog of AGFG1, is achieved in female germline cells via P-bodies and its localization requires functional Rab11. |
| Q47546908 | The use of novel epitope-tagged arenaviruses reveals that Rab5c-positive endosomal membranes are targeted by the LCMV matrix protein |
| Q27320490 | Time-Resolved Visualisation of Nearly-Native Influenza A Virus Progeny Ribonucleoproteins and Their Individual Components in Live Infected Cells |
| Q37271683 | Transport of the influenza virus genome from nucleus to nucleus |
| Q45324382 | Ubiquitination of the Cytoplasmic Domain of Influenza A Virus M2 Protein is Crucial for Production of Infectious Virus Particles |
| Q59356076 | Viral journeys on the intracellular highways |
| Q27000780 | Viral membrane scission |
| Q41930009 | Visualization of the lymphocytic choriomeningitis mammarenavirus (LCMV) genome reveals the early endosome as a possible site for genome replication and viral particle pre-assembly |
| Q36276213 | YB-1 functions as a porter to lead influenza virus ribonucleoprotein complexes to microtubules. |
| Q38364349 | hCLE/C14orf166, a cellular protein required for viral replication, is incorporated into influenza virus particles. |
| Q37548253 | hnRNP A2/B1 interacts with influenza A viral protein NS1 and inhibits virus replication potentially through suppressing NS1 RNA/protein levels and NS1 mRNA nuclear export |
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