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1. Full Text Determinants of Antiviral Effectiveness in Influenza Virus A Subtype H5N1
by Paul K. S. Chan and Nelson Lee and Mukhtiar Zaman and Wiku Adisasmito and Richard Coker and Wanna Hanshaoworakul and Viktor Gasimov and Ahmet Faik Oner and Nazim Dogan and Owen Tsang and Bounlay Phommasack and Sok Touch and Ebun Bamgboye and Anna Swenson and Stephen Toovey and Nancy A. Dreyer
The Journal of Infectious Diseases, ISSN 0022-1899, 11/2012, Volume 206, Issue 9, pp. 1359 - 1366
Background. Oseltamivir is widely used as treatment for influenza virus A subtype H5N1 (hereafter, "H5N1") infection but, like any intervention, is not always... 
Respiratory insufficiency | Corticosteroids | Influenza A virus | Antivirals | Patient care | Viruses | Orthomyxoviridae | Infections | H5N1 subtype influenza A virus | Symptoms | A H5N1 | INFECTIOUS DISEASES | NEURAMINIDASE INHIBITORS | HUMAN INFECTION | VIETNAM | AVIAN-INFLUENZA | HUMANS | MICROBIOLOGY | IMMUNOLOGY | Humans | Middle Aged | Child, Preschool | Respiratory Insufficiency - virology | Infant | Male | Influenza, Human - complications | Secondary Prevention | Young Adult | Influenza, Human - mortality | Adult | Female | Influenza, Human - virology | Influenza, Human - drug therapy | Child | Oseltamivir - pharmacology | Antiviral Agents - pharmacology | Respiratory Insufficiency - mortality | Treatment Outcome | Influenza A Virus, H5N1 Subtype - drug effects | Antiviral Agents - administration & dosage | Oseltamivir - administration & dosage | Adolescent | Survival Analysis | Aged | Oseltamivir phosphate | Usage | Prognosis | Research | Drug therapy | Influenza
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2. Full Text Genesis and pathogenesis of the 1918 pandemic H1N1 influenza A virus
by Michael Worobey and Guan-Zhu Han and Andrew Rambaut
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 6/2014, Volume 111, Issue 22, pp. 8107 - 8112
The source, timing, and geographical origin of the 1918–1920 pandemic influenza A virus have remained tenaciously obscure for nearly a century, as have the... 
H1N1 subtype influenza A virus | Pandemics | Influenza A virus | Swine | Mortality | Childhood | Antibodies | Viruses | Immunity | Age groups | Pathogenicity | Cohort immunity | Phylogeny | Reassortment | Virulence | UNITED-STATES | MORTALITY | reassortment | ORIGINAL ANTIGENIC SIN | NEUTRALIZING ANTIBODIES | MULTIDISCIPLINARY SCIENCES | HUMAN SERA | PATTERNS | cohort immunity | pathogenicity | RESPONSES | DIFFERENT AGES | virulence | phylogeny | INFECTION | EPIDEMIOLOGY | Influenza A Virus, H1N1 Subtype - immunology | Reassortant Viruses - pathogenicity | Humans | Influenza A virus - genetics | Reassortant Viruses - genetics | Disease Resistance - immunology | Influenza A Virus, H5N1 Subtype - genetics | Influenza A Virus, H3N2 Subtype - genetics | Influenza A Virus, H3N8 Subtype - genetics | Influenza A Virus, H3N8 Subtype - pathogenicity | Influenza A Virus, H7N9 Subtype - immunology | Genetic Variation | Reassortant Viruses - immunology | Influenza A Virus, H7N9 Subtype - pathogenicity | Influenza A virus - pathogenicity | Influenza, Human - mortality | Adult | Influenza A virus - immunology | Influenza, Human - virology | Child | Influenza A Virus, H1N1 Subtype - genetics | Influenza A Virus, H3N2 Subtype - pathogenicity | Influenza Pandemic, 1918-1919 - mortality | Birds | Influenza A Virus, H1N1 Subtype - pathogenicity | Influenza A Virus, H3N2 Subtype - immunology | Biological Evolution | Animals | Influenza A Virus, H3N8 Subtype - immunology | Influenza A Virus, H5N1 Subtype - immunology | Influenza A Virus, H5N1 Subtype - pathogenicity | Aged | Influenza A Virus, H7N9 Subtype - genetics | Causes of | Epidemics | United States | Swine influenza | Biological Sciences
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3. Full Text Evidence for the Circulation and Inter-Hemispheric Movement of the H14 Subtype Influenza A Virus
by Fries, Anthony C and Nolting, Jacqueline M and Danner, Angela and Webster, Robert G and Bowman, Andrew S and Krauss, Scott and Slemons, Richard D
PLoS ONE, ISSN 1932-6203, 03/2013, Volume 8, Issue 3, p. e59216
Three H14 influenza A virus (IAV) isolates recovered in 2010 during routine virus surveillance along the Mississippi Migratory Bird Flyway in Wisconsin, U.S.A.... 
H5N1 | MAXIMUM-LIKELIHOOD | DISTANCE | EVOLUTION | HEMAGGLUTININ | GENE | MULTIDISCIPLINARY SCIENCES | ECOLOGY | INFECTION | WILD BIRDS | Amino Acid Sequence | Influenza A virus - genetics | Molecular Sequence Data | Neuraminidase - genetics | Reassortant Viruses - genetics | Birds | Influenza in Birds - epidemiology | Phylogeny | Hemagglutinin Glycoproteins, Influenza Virus - genetics | Biological Evolution | Genetic Variation | Hemagglutinin Glycoproteins, Influenza Virus - classification | Asia - epidemiology | Animals | Base Sequence | Influenza in Birds - virology | Conserved Sequence | North America - epidemiology | Influenza A virus - classification | Neuraminidase - classification | Reassortant Viruses - classification | Lectins | Amino acids | Cladistic analysis | Analysis | Influenza | Health care | Divergence | Pandemics | Spatial discrimination | Viruses | Preventive medicine | Gene sequencing | Virology | Disease prevention | Gene flow | Infectious diseases | Surveillance | Exo-a-sialidase | Phylogenetics | Western hemisphere | Hemagglutinins | Wildfowl | Bioinformatics
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4. Full Text Avian-To-Human Transmission of H9N2 Subtype Influenza a Viruses: Relationship between H9N2 and H5N1 Human Isolates
by Y. P. Lin and M. Shaw and V. Gregory and K. Cameron and W. Lim and A. Klimov and K. Subbarao and Y. Guan and S. Krauss and K. Shortridge and R. Webster and N. Cox and A. Hay
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 8/2000, Volume 97, Issue 17, pp. 9654 - 9658
In 1997, 18 cases of influenza in Hong Kong (bird flu) caused by a novel H5N1 (chicken) virus resulted in the deaths of six individuals and once again raised... 
Proteins | Biological Sciences | Influenza A virus | Chickens | Humans | Viruses | H9N2 subtype influenza A virus | Amino acids | Infections | H5N1 subtype influenza A virus | H3N2 subtype influenza A virus | SINGLE AMINO-ACID | A VIRUS | ORIGIN | EVOLUTION | HEMAGGLUTININ | SPECIFICITY | GENE | MULTIDISCIPLINARY SCIENCES | RECEPTOR | INFECTION | HONG-KONG | Influenza A virus - chemistry | Conserved Sequence - genetics | Species Specificity | Influenza A virus - genetics | Child, Preschool | Molecular Sequence Data | Neuraminidase - genetics | Antigens, Viral - genetics | Infant | Influenza A Virus, H5N1 Subtype | Phylogeny | Neuraminidase - immunology | Genes, Viral - genetics | Neuraminidase - chemistry | Female | Influenza A virus - immunology | Binding Sites | Quail - virology | Hemagglutinins, Viral - genetics | Antigens, Viral - chemistry | Bird Diseases - epidemiology | Influenza, Human - epidemiology | Influenza, Human - transmission | Hemagglutinins, Viral - immunology | Bird Diseases - transmission | Influenza A Virus, H9N2 Subtype | Antigens, Viral - immunology | Animals | Hemagglutinins, Viral - chemistry | Hong Kong - epidemiology | Genetic Variation - genetics | Influenza A virus - classification | Avian influenza | Genetic aspects | Research | Birds as carriers of disease | Influenza
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5. Full Text A New Influenza Virus Virulence Determinant: The NS1 Protein Four C-Terminal Residues Modulate Pathogenicity
by David Jackson and Md. Jaber Hossain and Danielle Hickman and Daniel R. Perez and Robert A. Lamb
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 3/2008, Volume 105, Issue 11, pp. 4381 - 4386
The virulence of influenza virus is a multigenic trait. One determinant of virulence is the multifunctional NS1 protein that functions in several ways to... 
Proteins | H1N1 subtype influenza A virus | Lungs | Influenza A virus | Virulence | Viruses | Orthomyxoviridae | Amino acids | H5N1 subtype influenza A virus | Genetic mutation | PDZ domains | Influenza reverse genetics | PDZ ligand | H5N1 influenza | Mouse model for influenza | 1918 PANDEMIC VIRUS | ACTIVATION | BETA INDUCTION | MULTIDISCIPLINARY SCIENCES | PRE-MESSENGER-RNAS | NUCLEAR EXPORT | A-VIRUS | INTERFERON | IN-VIVO | mouse model for influenza | INFECTED-CELLS | influenza reverse genetics | V-PROTEIN | Interferons - biosynthesis | Lung Diseases - metabolism | Virulence Factors - genetics | Humans | Molecular Sequence Data | Influenza A Virus, H5N1 Subtype - genetics | Viral Nonstructural Proteins - chemistry | Recombination, Genetic - genetics | Female | Influenza A Virus, H5N1 Subtype - metabolism | Influenza A Virus, H1N1 Subtype - genetics | Influenza A Virus, H1N1 Subtype - metabolism | Disease Models, Animal | Amino Acid Sequence | Cell Line | Viral Nonstructural Proteins - genetics | Influenza A Virus, H1N1 Subtype - pathogenicity | Virulence Factors - chemistry | Mutation - genetics | Animals | Dogs | Influenza A Virus, H5N1 Subtype - chemistry | Influenza A Virus, H5N1 Subtype - pathogenicity | Viral Nonstructural Proteins - metabolism | Virulence Factors - metabolism | Influenza A Virus, H1N1 Subtype - chemistry | Mice | Mice, Inbred BALB C | Lung Diseases - pathology | Ligand binding (Biochemistry) | Viral proteins | Influenza | Influence | Models | Genetic aspects | Virulence (Microbiology) | Research | Properties | Biological Sciences
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6. Full Text Induction of Broadly Neutralizing H1N1 Influenza Antibodies by Vaccination
by Chih-Jen Wei and Jeffrey C. Boyington and Patrick M. McTamney and Wing-Pui Kong and Melissa B. Pearce and Ling Xu and Hanne Andersen and Srinivas Rao and Terrence M. Tumpey and Zhi-Yong Yang and Gary J. Nabel
Science, ISSN 0036-8075, 8/2010, Volume 329, Issue 5995, pp. 1060 - 1064
The rapid dissemination of the 2009 pandemic influenza virus underscores the need for universal influenza vaccines that elicit protective immunity to diverse... 
H1N1 subtype influenza A virus | Influenza vaccines | Immunization | Neutralizing antibodies | Vaccination | DNA | REPORTS | Antibodies | Viruses | Trimers | H3N2 subtype influenza A virus | HIV-1 | IMMUNIZATION | IMMUNITY | IMMUNOGENICITY | VIRUS | MULTIDISCIPLINARY SCIENCES | RECOMBINANT ADENOVIRAL VECTORS | Influenza A Virus, H1N1 Subtype - immunology | Orthomyxoviridae Infections - prevention & control | Influenza Vaccines - administration & dosage | Humans | Vaccines, DNA - immunology | Cross Protection | Male | Influenza A Virus, H2N2 Subtype - immunology | Macaca mulatta | Hemagglutinin Glycoproteins, Influenza Virus - immunology | Vaccines, DNA - administration & dosage | Hemagglutinin Glycoproteins, Influenza Virus - genetics | Antibodies, Neutralizing - immunology | Immunization, Secondary | Female | Mutant Proteins - immunology | Antibodies, Viral - biosynthesis | Ferrets | Influenza A Virus, H3N2 Subtype - immunology | Animals | Influenza Vaccines - immunology | Antibodies, Neutralizing - biosynthesis | Influenza A Virus, H5N1 Subtype - immunology | Plasmids | Antibodies, Viral - immunology | Mice | Mice, Inbred BALB C | Genetic Vectors | Influenza, Human - prevention & control | Orthomyxoviridae Infections - immunology | Influenza, Human - immunology | Research | Swine influenza | Vaccines | Swine flu | Influenza | Immune system
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7. Full Text High genetic compatibility and increased pathogenicity of reassortants derived from avian H9N2 and pandemic H1N1/2009 influenza viruses
by Peter Palese and Yipeng Sun and Kun Qin and Jingjing Wang and Juan Pu and Qingdong Tang and Yanxin Hu and Yuhai Bi and Xueli Zhao and Hanchun Yang and Yuelong Shu and Jinhua Liu
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 3/2011, Volume 108, Issue 10, pp. 4164 - 4169
H9N2 influenza viruses have been circulating worldwide in multiple avian species and repeatedly infecting mammals, including pigs and humans, posing a... 
H1N1 subtype influenza A virus | Pandemics | Influenza A virus | Swine | Reverse genetics | Viruses | Orthomyxoviridae | H9N2 subtype influenza A virus | H5N1 subtype influenza A virus | Reassortant viruses | H5N1 | EVOLUTION | A VIRUSES | SWINE | CHINA | MULTIDISCIPLINARY SCIENCES | POULTRY | POLYMERASE | VIRULENCE | PROTEINS | HONG-KONG | Animals | Influenza A Virus, H9N2 Subtype - genetics | Reassortant Viruses - pathogenicity | Virus Replication | Genes, Viral | Influenza A Virus, H1N1 Subtype - physiology | Molecular Sequence Data | Influenza A Virus, H1N1 Subtype - pathogenicity | Mice | Influenza A Virus, H9N2 Subtype - pathogenicity | Influenza A Virus, H1N1 Subtype - genetics | Influenza A Virus, H9N2 Subtype - physiology | Avian influenza viruses | Pathology | Genetics | Genetic aspects | Research | Health aspects | Biological Sciences
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8. Full Text Differences in Cytokine Production in Human Macrophages and in Virulence in Mice Are Attributable to the Acidic Polymerase Protein of Highly Pathogenic Influenza A Virus Subtype H5N1
by Saori Sakabe and Ryo Takano and Tokiko Nagamura-Inoue and Naohide Yamashita and Chairul A. Nidom and Mai thi Quynh Le and Kiyoko Iwatsuki-Horimoto and Yoshihiro Kawaoka
The Journal of Infectious Diseases, ISSN 0022-1899, 1/2013, Volume 207, Issue 2, pp. 262 - 271
Background. The pathogenesis of influenza A virus subtype H5N1 (hereafter, "H5N1") infection in humans is not completely understood, although hypercytokinemia... 
Cytokines | Epithelial cells | Influenza | Genes | Virulence | Viruses | Infections | Macrophages | H5N1 subtype influenza A virus | Human growth | cytokine | Hypercytokinemia | Immune response | virulence | H5N1 virus | human macrophages | Microarray | INFECTIOUS DISEASES | HUMAN-DISEASE | MICROBIOLOGY | INDUCTION | LEVEL | IMMUNOLOGY | INFECTION | SEASONAL H1N1 | Reassortant Viruses - pathogenicity | Influenza A Virus, H5N1 Subtype - physiology | Humans | Reassortant Viruses - genetics | Influenza A Virus, H5N1 Subtype - genetics | Macrophages - virology | Virulence - genetics | HEK293 Cells | Madin Darby Canine Kidney Cells | Female | Influenza, Human - virology | Macrophages - immunology | Cytokines - immunology | Orthomyxoviridae Infections - veterinary | RNA Replicase - genetics | Reassortant Viruses - metabolism | Viral Proteins - genetics | Animals | Epithelial Cells - immunology | Epithelial Cells - virology | Influenza A Virus, H5N1 Subtype - pathogenicity | Mice | Mice, Inbred BALB C | Orthomyxoviridae Infections - virology | Cytokines - biosynthesis | Orthomyxoviridae Infections - immunology | Influenza, Human - immunology | Avian influenza | Influenza viruses | Physiological aspects | Development and progression | Genetic aspects | Research | Virulence (Microbiology) | Major and Brief Reports
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9. Full Text H5N1 Hybrid Viruses Bearing 2009/H1N1 Virus Genes Transmit in Guinea Pigs by Respiratory Droplet
by Ying Zhang and Qianyi Zhang and Huihui Kong and Yongping Jiang and Yuwei Gao and Guohua Deng and Jianzhong Shi and Guobin Tian and Liling Liu and Jinxiong Liu and Yuntao Guan and Zhigao Bu and Hualan Chen
Science, ISSN 0036-8075, 6/2013, Volume 340, Issue 6139, pp. 1459 - 1463
In the past, avian influenza viruses have crossed species barriers to trigger human pandemics by reassorting with mammal-infective viruses in intermediate... 
Disease transmission | Guinea pigs | Virulence | REPORTS | Data transmission | Viruses | Orthomyxoviridae | Mice | H5N1 subtype influenza A virus | Ferrets | Transmission efficiency | MAMMALIAN HOST | ORIGIN | INFLUENZA-A VIRUS | AVIAN FLU TRANSMISSION | HEMAGGLUTININ | H1N1 2009 VIRUS | MULTIDISCIPLINARY SCIENCES | MOUSE MODEL | HUMANS | FERRETS | RECEPTOR SPECIFICITY | Reassortant Viruses - pathogenicity | Receptors, Virus - metabolism | Humans | Brain - virology | Molecular Sequence Data | Reassortant Viruses - genetics | Influenza A Virus, H5N1 Subtype - genetics | Viral Proteins - metabolism | Hemagglutinin Glycoproteins, Influenza Virus - genetics | Respiratory System - virology | Genes, Viral | Influenza, Human - virology | Influenza A Virus, H1N1 Subtype - genetics | Amino Acid Sequence | Cell Line | Hemagglutinin Glycoproteins, Influenza Virus - chemistry | Reverse Genetics | Guinea Pigs | Receptors, Cell Surface - metabolism | Viral Proteins - genetics | Influenza A Virus, H1N1 Subtype - pathogenicity | Ribonucleoproteins - metabolism | Influenza, Human - transmission | Animals | Orthomyxoviridae Infections - transmission | Virus Replication | Influenza A Virus, H5N1 Subtype - pathogenicity | Mice, Inbred BALB C | Mutation | Orthomyxoviridae Infections - virology | Avian influenza | Viral genetics | Physiological aspects | Host-parasite relationships | Genetic aspects | Research | Epidemics | Neurons | Avian flu | Genes | Respiratory diseases
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10. Full Text Preparation of quadri-subtype influenza virus-like particles using bovine immunodeficiency virus gag protein
by Tretyakova, Irina and Hidajat, Rachmat and Hamilton, Garrett and Horn, Noah and Nickols, Brian and Prather, Raphael O and Tumpey, Terrence M and Pushko, Peter
Virology, ISSN 0042-6822, 2015, Volume 487, pp. 163 - 171
Abstract Influenza VLPs comprised of hemagglutinin (HA), neuraminidase (NA), and matrix (M1) proteins have been previously used for immunological and... 
Infectious Disease | Avian influenza | H5N1 | Virus-like particle | H9N2 | BIV gag | H7N9 | H10N8 | VLP vaccine | H7N9 VIRUS | HEMAGGLUTININ | PROTECTIVE IMMUNE-RESPONSES | PANDEMIC INFLUENZA | H5N1 INFLUENZA | INTRANASAL VACCINATION | CHALLENGE | VIROLOGY | FERRETS | MICE | CANDIDATE VACCINE | Influenza A Virus, H1N1 Subtype - immunology | Orthomyxoviridae Infections - prevention & control | Influenza A Virus, H10N8 Subtype - genetics | Insecta | Influenza A Virus, H5N1 Subtype - genetics | Hemagglutinin Glycoproteins, Influenza Virus - immunology | Immunodeficiency Virus, Bovine - genetics | Influenza A Virus, H7N9 Subtype - immunology | Influenza A Virus, H9N2 Subtype - immunology | Neuraminidase - immunology | Spodoptera | Sf9 Cells | Influenza A Virus, H1N1 Subtype - genetics | Influenza A Virus, H10N8 Subtype - immunology | Cell Line | Gene Products, gag - immunology | Gene Products, gag - genetics | Influenza A Virus, H9N2 Subtype - genetics | Animals | Immunodeficiency Virus, Bovine - immunology | Influenza A Virus, H5N1 Subtype - immunology | Antibodies, Viral - immunology | Vaccines, Virus-Like Particle - immunology | Influenza A Virus, H7N9 Subtype - genetics | Orthomyxoviridae Infections - virology | Orthomyxoviridae Infections - immunology | Lectins | Avian influenza viruses | Usage | Immunodeficiency | INFLUENZA VIRUSES | CATTLE | INFLUENZA | HEMAGGLUTININS | ELECTRON MICROSCOPY | PROTEINS | 60 APPLIED LIFE SCIENCES | VACCINES | Virus-Like Particle | H5N1, H7N9, H9N2, H10N8 | Avian Influenza | VLP Vaccine
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11. Full Text Vaccination inducing broad and improved cross protection against multiple subtypes of influenza A virus
by Jae-Min Song and Nico Van Rooijen and Jadranka Bozja and Richard W. Compans and Sang-Moo Kang and Peter Palese
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 1/2011, Volume 108, Issue 2, pp. 757 - 761
Development of an influenza vaccine that provides broadly cross-protective immunity has been a scientific challenge for more than half a century. This study... 
Influenza vaccines | Antiserum | Influenza A virus | Vaccination | Cross protection | Antibodies | Viruses | Infections | Immunity | H3N2 subtype influenza A virus | M2 virus-like particles | Supplemental vaccine | ANTIBODIES | IMMUNITY | DENDRITIC CELLS | PARTICLES | MACROPHAGES | MULTIDISCIPLINARY SCIENCES | MATRIX PROTEIN | EXTRACELLULAR DOMAIN | M2 PROTEIN | IMMUNOGENICITY | RESISTANCE | supplemental vaccine | Clodronic Acid - pharmacology | Humans | Cross Protection | Influenza A Virus, H3N2 Subtype - immunology | Viral Matrix Proteins - physiology | Animals | Influenza A virus - metabolism | Macrophages - virology | Viral Matrix Proteins - chemistry | Influenza A Virus, H5N1 Subtype - immunology | Female | Influenza, Human - virology | Mice | Mice, Inbred BALB C | Dendritic Cells - virology | Influenza, Human - prevention & control | Prevention | Physiological aspects | Development and progression | Dosage and administration | Influenza | Biological Sciences
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12. Full Text Structure and Receptor Specificity of the Hemagglutinin from an H5N1 Influenza Virus
by James Stevens and Ola Blixt and Terrence M. Tumpey and Jeffery K. Taubenberger and James C. Paulson and Ian A. Wilson
Science, ISSN 0036-8075, 4/2006, Volume 312, Issue 5772, pp. 404 - 410
The hemagglutinin (HA) structure at 2.9 angstrom resolution, from a highly pathogenic Vietnamese H5N1 influenza virus, is more related to the 1918 and other... 
Polysaccharides | Receptors | Viruses | Ligands | Trimers | Viral morphology | Research Articles | H5N1 subtype influenza A virus | Genetic mutation | Monomers | Virology | A VIRUS | ORIGIN | EVOLUTION | DETERMINANTS | SUBTYPES | MULTIDISCIPLINARY SCIENCES | HOST | SIALIC-ACID | GLYCOSYLATION | BINDING SPECIFICITY | ESCAPE MUTANTS | Species Specificity | Receptors, Virus - metabolism | Humans | Virulence | Molecular Sequence Data | Crystallography, X-Ray | Influenza A Virus, H5N1 Subtype - genetics | Respiratory Mucosa - virology | Hemagglutinin Glycoproteins, Influenza Virus - immunology | Sialic Acids - chemistry | Hemagglutinin Glycoproteins, Influenza Virus - genetics | Lung - virology | Cloning, Molecular | Influenza A Virus, H5N1 Subtype - metabolism | Binding Sites | Protein Structure, Tertiary | Amino Acid Sequence | Hemagglutinin Glycoproteins, Influenza Virus - chemistry | Antigenic Variation | Sialic Acids - metabolism | Models, Molecular | Birds | Glycosylation | Hemagglutinin Glycoproteins, Influenza Virus - metabolism | Protein Folding | Polysaccharides - metabolism | Animals | Receptors, Virus - chemistry | Influenza A Virus, H5N1 Subtype - chemistry | Influenza A Virus, H5N1 Subtype - pathogenicity | Protein Conformation | Mutation | Carbohydrate Conformation | Amino Acid Substitution | Avian influenza | Agglutination tests | Research | Analysis
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