| scholarly article | Q13442814 |
| P50 | author | Esteban Domingo Solans | Q25423556 |
| Francisco Sobrino | Q39699249 | ||
| Eric Baranowski | Q56497467 | ||
| P2093 | author name string | Alison Burman | |
| Stephen Berryman | |||
| Terry Jackson | |||
| Stuart Clark | |||
| José I Núñez | |||
| Nicolas Molina | |||
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| Amino Acid Changes in Proteins 2B and 3A Mediate Rhinovirus Type 39 Growth in Mouse Cells | Q27469472 | ||
| Structure of a major immunogenic site on foot-and-mouth disease virus | Q27732027 | ||
| Rapid evolution of RNA genomes | Q29616272 | ||
| Flexibility of the major antigenic loop of foot-and-mouth disease virus bound to a Fab fragment of a neutralising antibody: structure and neutralisation | Q30628532 | ||
| Definition of an unexpected ligand recognition motif for alphav beta6 integrin | Q31932925 | ||
| Intracellular determinants of picornavirus replication | Q33542292 | ||
| Effects of foot-and-mouth disease virus nonstructural proteins on the structure and function of the early secretory pathway: 2BC but not 3A blocks endoplasmic reticulum-to-Golgi transport | Q33707361 | ||
| Foot-and-mouth disease virus virulent for cattle utilizes the integrin alpha(v)beta3 as its receptor. | Q33782587 | ||
| Genetic determinants of altered virulence of Taiwanese foot-and-mouth disease virus | Q33796680 | ||
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| Evolution of cell recognition by viruses | Q34250512 | ||
| The three-dimensional structure of foot-and-mouth disease virus at 2.9 A resolution | Q34446528 | ||
| Vaccination: a management tool in veterinary medicine | Q35035668 | ||
| Molecular basis of pathogenesis of FMDV. | Q35044850 | ||
| Structure and receptor binding. | Q35044853 | ||
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| Evolution of cell recognition by viruses: a source of biological novelty with medical implications | Q35627059 | ||
| Antibodies to the vitronectin receptor (integrin alpha V beta 3) inhibit binding and infection of foot-and-mouth disease virus to cultured cells | Q35838328 | ||
| Translation and replication of FMDV RNA. | Q36008129 | ||
| Host and virus determinants of picornavirus pathogenesis and tropism | Q36277182 | ||
| Viruses as quasispecies: biological implications | Q36433889 | ||
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| Structure of the complex of an Fab fragment of a neutralizing antibody with foot-and-mouth disease virus: positioning of a highly mobile antigenic loop | Q36857671 | ||
| The structure and function of a foot-and-mouth disease virus-oligosaccharide receptor complex. | Q38328829 | ||
| Specificity of the VP1 GH loop of Foot-and-Mouth Disease virus for alphav integrins. | Q38760885 | ||
| A similar pattern of interaction for different antibodies with a major antigenic site of foot-and-mouth disease virus: implications for intratypic antigenic variation | Q39577442 | ||
| Multiple virulence determinants of foot-and-mouth disease virus in cell culture | Q39579299 | ||
| The epithelial integrin alphavbeta6 is a receptor for foot-and-mouth disease virus | Q39584959 | ||
| Cell recognition by foot-and-mouth disease virus that lacks the RGD integrin-binding motif: flexibility in aphthovirus receptor usage | Q39589175 | ||
| A single amino acid substitution in nonstructural protein 3A can mediate adaptation of foot-and-mouth disease virus to the guinea pig. | Q39606030 | ||
| Integrin alphavbeta1 is a receptor for foot-and-mouth disease virus | Q39682189 | ||
| Evidence of the coevolution of antigenicity and host cell tropism of foot-and-mouth disease virus in vivo | Q39699119 | ||
| Foot-and-mouth disease virus receptors: comparison of bovine alpha(V) integrin utilization by type A and O viruses | Q39700273 | ||
| Foot-and-mouth disease virus replication sites form next to the nucleus and close to the Golgi apparatus, but exclude marker proteins associated with host membrane compartments | Q39708310 | ||
| Evaluation of genetically engineered derivatives of a Chinese strain of foot-and-mouth disease virus reveals a novel cell-binding site which functions in cell culture and in animals | Q39733475 | ||
| Efficient infection of cells in culture by type O foot-and-mouth disease virus requires binding to cell surface heparan sulfate. | Q39875541 | ||
| A large-scale evaluation of peptide vaccines against foot-and-mouth disease: lack of solid protection in cattle and isolation of escape mutants | Q39878888 | ||
| Tissue culture adaptation of foot-and-mouth disease virus selects viruses that bind to heparin and are attenuated in cattle. | Q39880172 | ||
| Recovery of infectious foot-and-mouth disease virus from suckling mice after direct inoculation with in vitro-transcribed RNA. | Q39997584 | ||
| Structure-function analysis of Arg-Gly-Asp helix motifs in alpha v beta 6 integrin ligands | Q40179951 | ||
| Foot-and-mouth disease virus mutant with decreased sensitivity to ribavirin: implications for error catastrophe | Q40199734 | ||
| Differential distribution of non-structural proteins of foot-and-mouth disease virus in BHK-21 cells | Q40290305 | ||
| VPg gene amplification correlates with infective particle formation in foot-and-mouth disease virus | Q40308729 | ||
| Analysis of a foot-and-mouth disease virus type A24 isolate containing an SGD receptor recognition site in vitro and its pathogenesis in cattle | Q40368026 | ||
| The alpha(v)beta6 integrin receptor for Foot-and-mouth disease virus is expressed constitutively on the epithelial cells targeted in cattle. | Q40368615 | ||
| Integrin alphavbeta8 functions as a receptor for foot-and-mouth disease virus: role of the beta-chain cytodomain in integrin-mediated infection. | Q40567879 | ||
| The structure of an immunodominant loop on foot and mouth disease virus, serotype O1, determined under reducing conditions | Q40672613 | ||
| Subcellular distribution of the foot-and-mouth disease virus 3A protein in cells infected with viruses encoding wild-type and bovine-attenuated forms of 3A. | Q40786240 | ||
| Structure of the major antigenic loop of foot-and-mouth disease virus complexed with a neutralizing antibody: direct involvement of the Arg-Gly-Asp motif in the interaction | Q40806410 | ||
| Genomic nucleotide sequence of a foot-and-mouth disease virus clone and its persistent derivatives. Implications for the evolution of viral quasispecies during a persistent infection | Q40923408 | ||
| Antibody recognition of picornaviruses and escape from neutralization: a structural view | Q40937386 | ||
| Systematic replacement of amino acid residues within an Arg-Gly-Asp-containing loop of foot-and-mouth disease virus and effect on cell recognition | Q41197317 | ||
| Genetic and phenotypic variability during replication of foot-and-mouth disease virus in swine | Q41714045 | ||
| Identification of a nucleotide deletion in parts of polypeptide 3A in two independent attenuated aphthovirus strains | Q41726708 | ||
| Early events in integrin alphavbeta6-mediated cell entry of foot-and-mouth disease virus | Q42069725 | ||
| Function-blocking integrin alphavbeta6 monoclonal antibodies: distinct ligand-mimetic and nonligand-mimetic classes | Q42831541 | ||
| Factors required for the Uridylylation of the foot-and-mouth disease virus 3B1, 3B2, and 3B3 peptides by the RNA-dependent RNA polymerase (3Dpol) in vitro | Q42847015 | ||
| A comparison of different methods of inoculating guinea-pigs with the virus of foot-and-mouth disease | Q43907822 | ||
| The non-structural polyprotein 3ABC of foot-and-mouth disease virus as a diagnostic antigen in ELISA to differentiate infected from vaccinated cattle | Q44530642 | ||
| Immunogenicity and T cell recognition in swine of foot-and-mouth disease virus polymerase 3D. | Q45647095 | ||
| ANTIBODIES PRODUCED BY GUINEA PIGS INFECTED WITH FOOT-AND-MOUTH DISEASE VIRUS. | Q45713043 | ||
| Genetic analysis of poliovirus protein 3A: characterization of a non-cytopathic mutant virus defective in killing Vero cells | Q45754122 | ||
| Multiple genetic variants arise in the course of replication of foot-and-mouth disease virus in cell culture | Q45797844 | ||
| Nucleotide sequence heterogeneity of the RNA from a natural population of foot-and-mouth-disease virus | Q45802392 | ||
| Extensive antigenic heterogeneity of foot-and-mouth disease virus of serotype C. | Q45847489 | ||
| Differentiating infection from vaccination in foot-and-mouth-disease: evaluation of an ELISA based on recombinant 3ABC. | Q47275048 | ||
| The pathogenesis of natural and simulated natural foot-and-mouth disease infection in cattle | Q55062458 | ||
| Protection against foot-and-mouth disease by immunization with a chemically synthesized peptide predicted from the viral nucleotide sequence | Q59068267 | ||
| Inhibition of cellular protein secretion by picornaviral 3A proteins | Q81781504 | ||
| P433 | issue | 16 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | foot-and-mouth disease | Q152401 |
| foot-and-mouth disease virus | Q1911079 | ||
| P304 | page(s) | 8497-8506 | |
| P577 | publication date | 2007-05-23 | |
| P1433 | published in | Journal of Virology | Q1251128 |
| P1476 | title | Guinea pig-adapted foot-and-mouth disease virus with altered receptor recognition can productively infect a natural host | |
| P478 | volume | 81 |
| Q39755293 | A single amino acid substitution in the capsid of foot-and-mouth disease virus can increase acid lability and confer resistance to acid-dependent uncoating inhibition |
| Q33986070 | Effects of two amino acid substitutions in the capsid proteins on the interaction of two cell-adapted PanAsia-1 strains of foot-and-mouth disease virus serotype O with heparan sulfate receptor |
| Q64066280 | Engineering Responses to Amino Acid Substitutions in the VP0- and VP3-Coding Regions of PanAsia-1 Strains of Foot-and-Mouth Disease Virus Serotype O |
| Q39763867 | Enhanced mucosal immunoglobulin A response and solid protection against foot-and-mouth disease virus challenge induced by a novel dendrimeric peptide. |
| Q34358514 | Expression and stability of foreign epitopes introduced into 3A nonstructural protein of foot-and-mouth disease virus |
| Q45362149 | Foot-and-mouth disease virus particles inactivated with binary ethylenimine are efficiently internalized into cultured cells. |
| Q34438120 | Genomic Changes in an Attenuated ZB Strain of Foot-and-Mouth Disease Virus Serotype Asia1 and Comparison with Its Virulent Parental Strain. |
| Q42046690 | Inclusion of a specific T cell epitope increases the protection conferred against foot-and-mouth disease virus in pigs by a linear peptide containing an immunodominant B cell site |
| Q39882487 | Internalization of swine vesicular disease virus into cultured cells: a comparative study with foot-and-mouth disease virus. |
| Q34366399 | Laboratory animal models to study foot-and-mouth disease: a review with emphasis on natural and vaccine-induced immunity |
| Q38961370 | Lethal mutagenesis of foot-and-mouth disease virus involves shifts in sequence space |
| Q37694793 | Mechanisms of viral emergence |
| Q38951275 | Membrane topology and cellular dynamics of foot-and-mouth disease virus 3A protein |
| Q56957525 | Mutant spectra in virus behavior |
| Q39316035 | Mutations that hamper dimerization of foot-and-mouth disease virus 3A protein are detrimental for infectivity |
| Q35822523 | Peptides Interfering 3A Protein Dimerization Decrease FMDV Multiplication |
| Q34428270 | Plasma membrane phosphatidylinositol 4,5 bisphosphate is required for internalization of foot-and-mouth disease virus and vesicular stomatitis virus |
| Q38210365 | Potential applications for antiviral therapy and prophylaxis in bovine medicine |
| Q40012531 | Subcellular distribution of swine vesicular disease virus proteins and alterations induced in infected cells: a comparative study with foot-and-mouth disease virus and vesicular stomatitis virus |
| Q27013917 | Viral quasispecies evolution |
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