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Investigation
Viral Biology
Publications
Comparison of commercial methods of immunoblot, ELISA, and chemiluminescent immunoassay for detecting type-specific herpes simplex viruses-1 and -2 IgG.
7. F. de Ory, M.E. Guisasola, P. Balfagón, J.C. Sanz. 2018. Comparison of commercial methods of immunoblot, ELISA, and chemiluminescent immunoassay for detecting type-specific herpes simplex viruses-1 and -2 IgG. JOURNAL OF CLINICAL LABORATORY ANALYSIS; 32:e22203.
PUBMED DOIGenomic non-coding regions reveal hidden patterns of mumps virus circulation in Spain, 2005 to 2015.
8. A.M. Gavilán, A. Fernández-García, A. Rueda, A. Castellanos, J. Masa-Calles, N. López-Perea, M.V. Torres de Mier, F. de Ory, J.E. Echevarría. 2018. Genomic non-coding regions reveal hidden patterns of mumps virus circulation in Spain, 2005 to 2015. EUROSURVEILLANCE, 2018;23(15):pii=17-00349.
PUBMED DOIComparative evaluation of indirect immunofluoresecence and NS-1 based ELISA for the determination of Zika virus specific IgM.
9. F. de Ory, M.P. Sánchez-Seco, A. Vázquez, M.D. Montero, E. Sulleiro, M.J. Martinez, L. Matas, F.J. Merino, and Working Group for the Study of Zika Virus Infections (WGSZVI). 2018. Comparative evaluation of indirect immunofluoresecence and NS-1 based ELISA for the determination of Zika virus specific IgM. VIRUSES 10, 379
PUBMED DOIMeasles virus genotype D4 strains with non-standard genome lengths circulated during the large outbreaks in Spain in 2011-2012
10. H. Gil, A. Fernández-García, M.M. Mosquera, J.M. Hübschen, A. Castellanos, F. de Ory, J. Masa, J.E. Echevarria. 2018. Measles virus genotype D4 strains with non-standard length M-F non-coding region circulated during the major outbreaks of 2011-2012 in Spain. PLOS ONE July 16, 2018.
PUBMED DOIHepatitis E genotype 3 genome: A comprehensive analysis of entropy, motif conservation, relevant mutations, and clade-associated polymorphisms
• Muñoz-Chimeno M, Rodríguez-Paredes V, García-Lugo MA, Avellón A. Hepatitis E genotype 3 genome: A comprehensive analysis of entropy, motif conservation, relevant mutations, and clade-associated polymorphisms. Front Microbiol. 2022 Oct 6;13:1011662.
PUBMED DOIFrecuencia de sustituciones relevantes asociadas a resistencia en la región NS5A a elbasvir en el virus de la hepatitis C en pacientes con genotipo 1a en España
Palladino C, Esteban-Cartelle B, Mate-Cano I, Sánchez-Carrillo M, Resino S, Briz V. Frecuencia de sustituciones relevantes asociadas a resistencia en la región NS5A a elbasvir en el virus de la hepatitis C en pacientes con genotipo 1a en España Enferm Infecc Microbiol Clin. 2018; 36 (5): 262-267
PUBMED DOIProline-Rich Hypervariable Region of Hepatitis E Virus: Arranging the Disorder.
• Muñoz-Chimeno M, Cenalmor A, García-Lugo MA, Hernandez M, David Rodríguez-Lazaro D, Avellón A. Proline-Rich Hypervariable Region of Hepatitis E Virus: Arranging the Disorder. Microorganisms. 2020 Sep 15;8(9):1417.
PUBMED DOIClinical performance of Determine HBsAg 2 rapid test for Hepatitis B detection.
• Avellón A, Ala A, Diaz A, Domingo D, González R, Hidalgo L, Kooner L, Loganathan S, Martin D, McPherson S, Muñoz-Chimeno M, Ryder S, Gabrielle Slapak G, Ryan P, Valbuena M, Kennedy PT. Clinical performance of Determine HBsAg 2 rapid test for Hepatitis B detection. J Med Virol. 2020 Apr 9.
PUBMED DOIContent with Investigacion .
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Isabel de Fuentes Corripio
Jefa de Unidad, Investigador Titular OPIS
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David Carmena Jiménez
Investigador Doctor distinguido
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Aly Salimo Omar Muadica
Becario pre-doctoral
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Marta Hernández de Mingo
Colaborador I+D+I
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Begoña Bailo Cardoso
Técnico de Laboratorio
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María Aguilera
Técnico de laboratorio
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David González Barrio
Investigador contratado
List of staff
Additional Information
The research activity of the Viral Biology group since its beginnings in the 1980s has focused on respiratory viruses, especially on the study of the mechanisms of virus entry into the cell, evolutionary aspects, antigenic properties and vaccine development.
Currently, the group's objectives are focused on the characterisation of the immune response and the development of vaccines against human pneumoviruses: human respiratory syncytial virus (hRSV) and human metapneumovirus (hMPV).
Both viruses are considered to be important respiratory pathogens of high clinical relevance, especially in the paediatric population.
Safe and effective vaccines against these viruses are currently not available. Soluble protein subunits based on the fusion protein (F-protein) of hRSV and hMPV are being developed in the laboratory by protein engineering for use as vaccines against human pneumoviruses.
On the other hand, and thanks to the characterisation of the type of humoral response induced by the F proteins of these viruses, the laboratory is also involved in the isolation of monoclonal antibodies and nanoantibodies for use as treatments against these viruses.
The research activity of the Viral Biology group since its beginnings in the 1980s has focused on respiratory viruses, especially on the study of the mechanisms of virus entry into the cell, evolutionary aspects, antigenic properties and vaccine development.
Currently, the group's objectives are focused on the characterisation of the immune response and the development of vaccines against human pneumoviruses: human respiratory syncytial virus (hRSV) and human metapneumovirus (hMPV).
Both viruses are considered to be important respiratory pathogens of high clinical relevance, especially in the paediatric population.
Safe and effective vaccines against these viruses are currently not available. Soluble protein subunits based on the fusion protein (F-protein) of hRSV and hMPV are being developed in the laboratory by protein engineering for use as vaccines against human pneumoviruses.
On the other hand, and thanks to the characterisation of the type of humoral response induced by the F proteins of these viruses, the laboratory is also involved in the isolation of monoclonal antibodies and nanoantibodies for use as treatments against these viruses.