has been cited by the following article(s):
[1]
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HA and M2 sequences alter the replication of 2013–16 H1 live attenuated influenza vaccine infection in human nasal epithelial cell cultures
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Vaccine,
2022 |
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[2]
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Inhibition of avian influenza virus H9N2 infection by antiviral hexapeptides that target viral attachment to epithelial cells
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Virus Research,
2022 |
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[3]
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Novel single-chain antibodies against highly conserved epitopes in the hemagglutinin of influenza A viruses: Promising agents for universal therapies
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2021 |
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[4]
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Identification and characterization of epitopes from influenza A virus hemagglutinin that induce broadly cross-reactive antibodies
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2018 |
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[5]
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Computational Study of Interdependence Between Hemagglutinin and Neuraminidase of Pandemic 2009 H1N1
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NanoBioscience, IEEE Transactions on,
2015 |
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[6]
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A SPECTRAL SIMILARITY MEASURE BETWEEN TIME SERIES APPLIED TO THE IDENTIFICATION OF PROTEIN-PROTEIN INTERACTIONS
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2015 |
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[7]
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MSCA: a spectral comparison algorithm between time series to identify protein-protein interactions
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BMC bioinformatics,
2015 |
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[8]
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Specific Single Chain Antibodies (Scfvs) Against Influenza A Virus Using Phage Display
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2014 |
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[9]
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Specific Single Chain Antibodies (Scfvs) Against Influenza a Virus Using Phage Display Technique
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2014 |
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[10]
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Mutations in hemagglutinin of a novel avian-origin H7N9 virus that are critical for receptor binding specificity
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Tsinghua Science and Technology,
2013 |
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[11]
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Receptor binding specificity and sequence comparison of a novel avian-origin H7N9 virus in China
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Journal of Biomedical Science and Engineering,
2013 |
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[12]
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Mutations in hemagglutinin of H5N1 influenza that switch receptor specificity from avian to human types
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Computational Molecular Bioscience,
2013 |
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[13]
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Molecular features of highly pathogenic avian and human H5N1 influenza A viruses in Asia
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Computational Molecular Bioscience,
2012 |
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[14]
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New mutational trends in the HA protein of 2009 H1N1 pandemic influenza virus from May 2010 to February
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2011 |
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[15]
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New mutational trends in the HA protein of 2009 H1N1 pandemic influenza virus from May 2010 to February 2011
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Natural Science,
2011 |
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[16]
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Receptor binding specificity and origin of 2009 H1N1 pandemic influenza virus
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Natural Science,
2011 |
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[17]
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Characterization of asian and north American avian H5N1
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American Journal of Molecular Biology,
2011 |
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[18]
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RECONOCIMIENTO DE REGIONES DE INTERACCION DE PROTEINAS MEDIANTE UN ANALISIS TIEMPO-FRECUENCIA
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NA Plaza, GE Salcedo
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[1]
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Evolution of Indian Influenza A (H1N1) Hemagglutinin Strains: A Comparative Analysis of the Pandemic Californian HA Strain
Frontiers in Molecular Biosciences,
2023
DOI:10.3389/fmolb.2023.1111869
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[2]
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HA and M2 sequences alter the replication of 2013–16 H1 live attenuated influenza vaccine infection in human nasal epithelial cell cultures
Vaccine,
2022
DOI:10.1016/j.vaccine.2022.05.088
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[3]
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Identification and characterization of epitopes from influenza A virus hemagglutinin that induce broadly cross-reactive antibodies
International Journal of Molecular Medicine,
2017
DOI:10.3892/ijmm.2017.3344
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[4]
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Computational Study of Interdependence Between Hemagglutinin and Neuraminidase of Pandemic 2009 H1N1
IEEE Transactions on NanoBioscience,
2015
DOI:10.1109/TNB.2015.2406992
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[5]
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Receptor binding specificity and sequence comparison of a novel avian-origin H7N9 virus in China
Journal of Biomedical Science and Engineering,
2013
DOI:10.4236/jbise.2013.65068
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[6]
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Mutations in Hemagglutinin of H5N1 Influenza That Switch Receptor Specificity from Avian to Human Types
Computational Molecular Bioscience,
2013
DOI:10.4236/cmb.2013.32005
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