| scholarly article | Q13442814 |
| P50 | author | Paul Digard | Q40060981 |
| P2093 | author name string | Debra Elton | |
| Dawn Fisher | |||
| Anne E Mullin | |||
| Sarah L Noton | |||
| Elizabeth Medcalf | |||
| P2860 | cites work | Identification of Hsc70 as an influenza virus matrix protein (M1) binding factor involved in the virus life cycle | Q24305933 |
| Transport of incoming influenza virus nucleocapsids into the nucleus | Q27486207 | ||
| Combined results from solution studies on intact influenza virus M1 protein and from a new crystal form of its N-terminal domain show that M1 is an elongated monomer | Q27629317 | ||
| Crystal structure of the M1 protein-binding domain of the influenza A virus nuclear export protein (NEP/NS2) | Q27642013 | ||
| Structure of a bifunctional membrane-RNA binding protein, influenza virus matrix protein M1 | Q27738409 | ||
| In vitro dissection of the membrane and RNP binding activities of influenza virus M1 protein | Q27863692 | ||
| Assembly and budding of influenza virus | Q27863797 | ||
| A small percentage of influenza virus M1 protein contains zinc but zinc does not influence in vitro M1-RNA interaction | Q27865306 | ||
| Molecular assembly of influenza virus: association of the NS2 protein with virion matrix | Q27865315 | ||
| Influenza virus pleiomorphy characterized by cryoelectron tomography | Q30358499 | ||
| Transcription-inhibition and RNA-binding domains of influenza A virus matrix protein mapped with anti-idiotypic antibodies and synthetic peptides | Q30452201 | ||
| Functional and antigenic domains of the matrix (M1) protein of influenza A virus | Q30452233 | ||
| Nucleus-targeting domain of the matrix protein (M1) of influenza virus | Q30452647 | ||
| Association of influenza virus matrix protein with ribonucleoproteins | Q33706147 | ||
| Role of the influenza virus M1 protein in nuclear export of viral ribonucleoproteins | Q33797502 | ||
| Influenza virus hemagglutinin and neuraminidase cytoplasmic tails control particle shape | Q33886239 | ||
| The influenza virus NEP (NS2 protein) mediates the nuclear export of viral ribonucleoproteins | Q33888022 | ||
| Influenza virus assembly: effect of influenza virus glycoproteins on the membrane association of M1 protein | Q33914921 | ||
| The influenza virus nucleoprotein: a multifunctional RNA-binding protein pivotal to virus replication. | Q34119838 | ||
| Plasmid cDNA-directed protein synthesis in a coupled eukaryotic in vitro transcription-translation system. | Q34250894 | ||
| The cytoplasmic tail of the influenza A virus M2 protein plays a role in viral assembly | Q34648238 | ||
| Influenza A virus NS2 protein mediates vRNP nuclear export through NES-independent interaction with hCRM1 | Q34685189 | ||
| Selective incorporation of influenza virus RNA segments into virions | Q34762920 | ||
| Distinct domains of the influenza a virus M2 protein cytoplasmic tail mediate binding to the M1 protein and facilitate infectious virus production | Q35024034 | ||
| Hyperphosphorylation of mutant influenza virus matrix protein, M1, causes its retention in the nucleus | Q35830038 | ||
| Introduction of a temperature-sensitive phenotype into influenza A/WSN/33 virus by altering the basic amino acid domain of influenza virus matrix protein | Q35872602 | ||
| Effect of M1 protein and low pH on nuclear transport of influenza virus ribonucleoproteins | Q35873277 | ||
| The in situ spatial arrangement of the influenza A virus matrix protein M1 assessed by tritium bombardment | Q36406849 | ||
| Nuclear retention of M1 protein in a temperature-sensitive mutant of influenza (A/WSN/33) virus does not affect nuclear export of viral ribonucleoproteins | Q36702086 | ||
| Influenza a viruses with mutations in the m1 helix six domain display a wide variety of morphological phenotypes | Q37743549 | ||
| Mechanism for inhibition of influenza virus RNA polymerase activity by matrix protein. | Q38287598 | ||
| 'Genome gating'; polarized intranuclear trafficking of influenza virus RNPs | Q38906379 | ||
| Temperature-sensitive lesions in two influenza A viruses defective for replicative transcription disrupt RNA binding by the nucleoprotein | Q39550900 | ||
| Identification of amino acid residues of influenza virus nucleoprotein essential for RNA binding. | Q39550906 | ||
| Modulation of nuclear localization of the influenza virus nucleoprotein through interaction with actin filaments. | Q39551880 | ||
| Influenza virus matrix protein is the major driving force in virus budding. | Q39593594 | ||
| Interaction of the influenza virus nucleoprotein with the cellular CRM1-mediated nuclear export pathway | Q39601251 | ||
| Formation of wild-type and chimeric influenza virus-like particles following simultaneous expression of only four structural proteins | Q39603298 | ||
| Influenza virus hemagglutinin and neuraminidase glycoproteins stimulate the membrane association of the matrix protein. | Q39876368 | ||
| M protein (M1) of influenza virus: antigenic analysis and intracellular localization with monoclonal antibodies | Q40116675 | ||
| Nuclear export of influenza A virus mRNAs requires ongoing RNA polymerase II activity | Q40203496 | ||
| Architecture of ribonucleoprotein complexes in influenza A virus particles | Q40325038 | ||
| RNA-binding properties of influenza A virus matrix protein M1 | Q40538600 | ||
| Efficient generation and growth of influenza virus A/PR/8/34 from eight cDNA fragments | Q40551696 | ||
| The M1 matrix protein controls the filamentous phenotype of influenza A virus | Q40576355 | ||
| Interaction of influenza M protein with viral lipid and phosphatidylcholine vesicles | Q40624463 | ||
| Reverse genetics studies on the filamentous morphology of influenza A virus | Q40668357 | ||
| A functional link between the actin cytoskeleton and lipid rafts during budding of filamentous influenza virions | Q40700277 | ||
| Membrane interaction of influenza virus M1 protein | Q40901709 | ||
| Oligomerization of the influenza virus nucleoprotein: identification of positive and negative sequence elements | Q40942027 | ||
| The M1 and NP proteins of influenza A virus form homo- but not heterooligomeric complexes when coexpressed in BHK-21 cells | Q41001783 | ||
| The matrix 1 protein of influenza A virus inhibits the transcriptase activity of a model influenza reporter genome in vivo. | Q41008373 | ||
| Interaction of M protein and RNP of fowl plague virus in vitro | Q41524072 | ||
| Lipid raft-dependent targeting of the influenza A virus nucleoprotein to the apical plasma membrane | Q45135653 | ||
| Interaction of influenza virus proteins with nucleosomes. | Q45522227 | ||
| Structure of a knockout mutant of influenza virus M1 protein that has altered activities in membrane binding, oligomerisation and binding to NEP (NS2). | Q45696228 | ||
| The influenza A virus M1 protein interacts with the cellular receptor of activated C kinase (RACK) 1 and can be phosphorylated by protein kinase C. | Q45742612 | ||
| The cytoplasmic tails of the influenza virus spike glycoproteins are required for normal genome packaging | Q45743339 | ||
| Influenza virus M1 protein binds to RNA through its nuclear localization signal | Q45761700 | ||
| Inhibition of the influenza virus RNA-dependent RNA polymerase by antisera directed against the carboxy-terminal region of the PB2 subunit | Q45771243 | ||
| Nuclear transport of influenza virus ribonucleoproteins: the viral matrix protein (M1) promotes export and inhibits import | Q45854241 | ||
| The crystal structure of the influenza matrix protein M1 at neutral pH: M1-M1 protein interfaces can rotate in the oligomeric structures of M1 | Q74621944 | ||
| P433 | issue | Pt 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | virion | Q1757347 |
| influenza A virus | Q834390 | ||
| P304 | page(s) | 2280-2290 | |
| P577 | publication date | 2007-08-01 | |
| P1433 | published in | Journal of General Virology | Q6295245 |
| P1476 | title | Identification of the domains of the influenza A virus M1 matrix protein required for NP binding, oligomerization and incorporation into virions | |
| P478 | volume | 88 |
| Q38824253 | A LC3-interacting motif in the influenza A virus M2 protein is required to subvert autophagy and maintain virion stability |
| Q28546866 | A Novel Antiviral Target Structure Involved in the RNA Binding, Dimerization, and Nuclear Export Functions of the Influenza A Virus Nucleoprotein |
| Q28305057 | A Rab11- and microtubule-dependent mechanism for cytoplasmic transport of influenza A virus viral RNA |
| Q33954072 | A crucial role of N-terminal domain of influenza A virus M1 protein in interaction with swine importin α1 protein |
| Q35943682 | A nuclear export signal in the matrix protein of Influenza A virus is required for efficient virus replication |
| Q36554219 | An overlapping protein-coding region in influenza A virus segment 3 modulates the host response |
| Q47264095 | Broad Spectrum Inhibitor of Influenza A and B Viruses Targeting the Viral Nucleoprotein. |
| Q39838203 | Budding of filamentous and non-filamentous influenza A virus occurs via a VPS4 and VPS28-independent pathway |
| Q47551585 | Cathepsin B plays a key role in optimal production of the influenza A virus |
| Q35014925 | Cell penetrable human scFv specific to middle domain of matrix protein-1 protects mice from lethal influenza |
| Q37407070 | Characterisation of influenza A viruses with mutations in segment 5 packaging signals |
| Q36974774 | Compatibility among polymerase subunit proteins is a restricting factor in reassortment between equine H7N7 and human H3N2 influenza viruses |
| Q34205496 | Conserved and host-specific features of influenza virion architecture |
| Q59796308 | Conserved methionine 165 of matrix protein contributes to the nuclear import and is essential for influenza A virus replication |
| Q39608675 | Conserved residues in Lassa fever virus Z protein modulate viral infectivity at the level of the ribonucleoprotein |
| Q45371217 | Crucial role of the influenza virus NS2 (NEP) C-terminal domain in M1 binding and nuclear export of vRNP. |
| Q40109947 | Crystal structure of an orthomyxovirus matrix protein reveals mechanisms for self-polymerization and membrane association |
| Q35311980 | Crystal structures of influenza A virus matrix protein M1: variations on a theme |
| Q38077395 | Cytoplasmic tails of bunyavirus Gn glycoproteins-Could they act as matrix protein surrogates? |
| Q90282522 | Deep Mutational Scan of the Highly Conserved Influenza A Virus M1 Matrix Protein Reveals Substantial Intrinsic Mutational Tolerance |
| Q99633792 | Discrete spatio-temporal regulation of tyrosine phosphorylation directs influenza A virus M1 protein towards its function in virion assembly |
| Q34289065 | Dissection of influenza A virus M1 protein: pH-dependent oligomerization of N-terminal domain and dimerization of C-terminal domain |
| Q30432421 | Emerging antiviral strategies to interfere with influenza virus entry |
| Q21089600 | Emerging roles for the influenza A virus nuclear export protein (NEP) |
| Q42268309 | Enhanced infectivity of H5N1 highly pathogenic avian influenza (HPAI) virus in pig ex vivo respiratory tract organ cultures following adaptation by in vitro passage |
| Q35745427 | Equine and Canine Influenza H3N8 Viruses Show Minimal Biological Differences Despite Phylogenetic Divergence |
| Q55554478 | Evolution of Therapeutic Antibodies, Influenza Virus Biology, Influenza, and Influenza Immunotherapy. |
| Q98721479 | Experimental validation of influenza A virus matrix protein (M1) interaction with host cellular alpha enolase and pyruvate kinase |
| Q30356104 | Extreme evolutionary conservation of functionally important regions in H1N1 influenza proteome. |
| Q38882756 | Filamentous influenza viruses. |
| Q61811062 | Genetic Analysis of the M Gene of Equine Influenza Virus Strains Isolated in Poland, in the Context of the Asian-like Group Formation |
| Q40060300 | Genetic variation and co-evolutionary relationship of RNA polymerase complex segments in influenza A viruses |
| Q27341132 | Identification of a novel splice variant form of the influenza A virus M2 ion channel with an antigenically distinct ectodomain |
| Q37007016 | In vitro and in vivo replication of influenza A H1N1 WSN33 viruses with different M1 proteins |
| Q34641761 | Individual influenza A virus mRNAs show differential dependence on cellular NXF1/TAP for their nuclear export |
| Q56981340 | Influenza A Virus Cell Entry, Replication, Virion Assembly and Movement |
| Q38981236 | Influenza A virus hemagglutinin and neuraminidase mutually accelerate their apical targeting through clustering of lipid rafts |
| Q36738106 | Influenza A virus nucleoprotein induces apoptosis in human airway epithelial cells: implications of a novel interaction between nucleoprotein and host protein Clusterin |
| Q30385238 | Influenza A virus ribonucleoproteins modulate host recycling by competing with Rab11 effectors. |
| Q24634367 | Influenza virus M2 protein mediates ESCRT-independent membrane scission |
| Q34913111 | Influenza virus assembly and budding |
| Q28540172 | Influenza virus drug resistance: a time-sampled population genetics perspective |
| Q37316167 | Influenza virus morphogenesis and budding |
| Q45324799 | Interaction between a unique minor protein and a major capsid protein of Bluetongue virus controls virus infectivity |
| Q38812523 | Interaction of Human Parainfluenza Virus Type 3 Nucleoprotein with Matrix Protein Mediates Internal Viral Protein Assembly |
| Q39404333 | Interaction of influenza A virus matrix protein with RACK1 is required for virus release |
| Q35076701 | Intracellular expression of camelid single-domain antibodies specific for influenza virus nucleoprotein uncovers distinct features of its nuclear localization. |
| Q39939445 | Intravirion cohesion of matrix protein M1 with ribonucleocapsid is a prerequisite of influenza virus infectivity |
| Q30394893 | Involvement of an Arginine Triplet in M1 Matrix Protein Interaction with Membranes and in M1 Recruitment into Virus-Like Particles of the Influenza A(H1N1)pdm09 Virus |
| Q45325839 | KIF13A mediates trafficking of influenza A virus ribonucleoproteins |
| Q38716278 | Lateral Organization of Influenza Virus Proteins in the Budozone Region of the Plasma Membrane |
| Q39937791 | Molecular studies of temperature-sensitive replication of the cold-adapted B/Ann Arbor/1/66, the master donor virus for live attenuated influenza FluMist vaccines |
| Q58089550 | Mutation of influenza A virus PA-X decreases pathogenicity in chicken embryos and can increase the yield of reassortant candidate vaccine viruses |
| Q36974640 | Mutational analysis of cis-acting RNA signals in segment 7 of influenza A virus |
| Q37157108 | Mutational analysis of conserved amino acids in the influenza A virus nucleoprotein |
| Q45326090 | Mutations in the Influenza A virus M1 protein enhance virus budding to complement lethal mutations in the M2 cytoplasmic tail |
| Q39801069 | Nuclear dynamics of influenza A virus ribonucleoproteins revealed by live-cell imaging studies |
| Q36760084 | Nucleozin targets cytoplasmic trafficking of viral ribonucleoprotein-Rab11 complexes in influenza A virus infection |
| Q35224411 | Overlapping signals for translational regulation and packaging of influenza A virus segment 2 |
| Q38631745 | Palmitoylation contributes to membrane curvature in Influenza A virus assembly and hemagglutinin-mediated membrane fusion |
| Q40534714 | Polycomb repressive complex 2 facilitates the nuclear export of the influenza viral genome through the interaction with M1. |
| Q35077509 | RAB11A is essential for transport of the influenza virus genome to the plasma membrane |
| Q28387722 | Residue 41 of the Eurasian avian-like swine influenza a virus matrix protein modulates virion filament length and efficiency of contact transmission |
| Q38061996 | Role of the Rab11 pathway in negative-strand virus assembly |
| Q38715617 | Selective incorporation of vRNP into influenza A virions determined by its specific interaction with M1 protein |
| Q34045278 | Spatial structure peculiarities of influenza A virus matrix M1 protein in an acidic solution that simulates the internal lysosomal medium |
| Q37547146 | Specific nucleoprotein residues affect influenza virus morphology. |
| Q28391423 | Specific residues in the 2009 H1N1 swine-origin influenza matrix protein influence virion morphology and efficiency of viral spread in vitro |
| Q34594479 | Stepwise priming by acidic pH and a high K+ concentration is required for efficient uncoating of influenza A virus cores after penetration |
| Q30495070 | Structural organization of a filamentous influenza A virus |
| Q34441568 | Structure-based design of NS2 mutants for attenuated influenza A virus vaccines |
| Q39920888 | Studies of an influenza A virus temperature-sensitive mutant identify a late role for NP in the formation of infectious virions |
| Q36930904 | Targeting Viral Proteostasis Limits Influenza Virus, HIV, and Dengue Virus Infection |
| Q39103823 | The Antiviral Mechanism of an Influenza A Virus Nucleoprotein-Specific Single-Domain Antibody Fragment |
| Q40064817 | The Combined Effect of Oseltamivir and Favipiravir on Influenza A Virus Evolution. |
| Q28384333 | The M segment of the 2009 pandemic influenza virus confers increased neuraminidase activity, filamentous morphology, and efficient contact transmissibility to A/Puerto Rico/8/1934-based reassortant viruses |
| Q28278360 | The Rab11 pathway is required for influenza A virus budding and filament formation |
| Q35077596 | The SUMOylation of matrix protein M1 modulates the assembly and morphogenesis of influenza A virus |
| Q47556315 | The WD40 domain of ATG16L1 is required for its non-canonical role in lipidation of LC3 at single membranes. |
| Q34450169 | The compensatory G88R change is essential in restoring the normal functions of influenza A/WSN/33 virus matrix protein 1 with a disrupted nuclear localization signal |
| Q45202196 | The cytoplasmic tail of hantavirus Gn glycoprotein interacts with RNA. |
| Q42253255 | The genetics of virus particle shape in equine influenza A virus |
| Q37252702 | The genome-packaging signal of the influenza A virus genome comprises a genome incorporation signal and a genome-bundling signal |
| Q99248786 | The native structure of the assembled matrix protein 1 of influenza A virus |
| Q33931158 | The nuclear export protein of H5N1 influenza A viruses recruits Matrix 1 (M1) protein to the viral ribonucleoprotein to mediate nuclear export |
| Q45388763 | The polybasic region is not essential for membrane binding of the matrix protein M1 of influenza virus. |
| Q36662175 | The proteosomal degradation of fusion proteins cannot be predicted from the proteosome susceptibility of their individual components |
| Q37271683 | Transport of the influenza virus genome from nucleus to nucleus |
| Q36380177 | Two polar residues within C-terminal domain of M1 are critical for the formation of influenza A Virions |
| Q45324382 | Ubiquitination of the Cytoplasmic Domain of Influenza A Virus M2 Protein is Crucial for Production of Infectious Virus Particles |
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