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Viral Biology

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Rapid profiling of RSV antibody repertoires from the memory B cells of naturally infected adult donors

6. Gilman MS, Castellanos CA, Chen M, Ngwuta JO, Goodwin E, Moin SM, et al. Rapid profiling of RSV antibody repertoires from the memory B cells of naturally infected adult donors. Sci Immunol. 2016;1(6).

PUBMED DOI

Characterization of a Prefusion-Specific Antibody That Recognizes a Quaternary, Cleavage-Dependent Epitope on the RSV Fusion Glycoprotein.

8. Gilman MS, Moin SM, Mas V, Chen M, Patel NK, Kramer K, et al. Characterization of a Prefusion-Specific Antibody That Recognizes a Quaternary, Cleavage-Dependent Epitope on the RSV Fusion Glycoprotein. PLoS Pathog. 2015;11(7):e1005035.

PUBMED DOI

Polyclonal and monoclonal antibodies specific for the six-helix bundle of the human respiratory syncytial virus fusion glycoprotein as probes of the protein post-fusion conformation.

 9. Palomo C, Mas V, Vazquez M, Cano O, Luque D, Terron MC, et al. Polyclonal and monoclonal antibodies specific for the six-helix bundle of the human respiratory syncytial virus fusion glycoprotein as probes of the protein post-fusion conformation. Virology. 2014;460-461:119-27.

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Biophysical properties of single rotavirus particles account for the functions of protein shells in a multilayered virus

Jiménez-Zaragoza M., Yubero M.L., Martín-Forero E., Castón J.R., Reguera D., Luque D.*, de Pablo P.J., Rodríguez J.M. 2018. Biophysical properties of single rotavirus particles account for the functions of protein shells in a multilayered virus. eLife 7: e37295. *Corresponding author.

PUBMED DOI

Capsid structure of dsRNA fungal viruses.

Luque D., Mata C.P., Suzuki N., Ghabrial S.A., Castón J.R. 2018. Capsid structure of dsRNA fungal viruses. Viruses 10(9):481

PUBMED DOI

Structural insights into Rotavirus entry

Rodríguez J.M., Luque D.* 2019. Structural insights into Rotavirus entry. Advances in Experimental Medicine and Biology. 1215:45-68. *Corresponding author.

PUBMED DOI

Acquisition of functions on the outer capsid surface during evolution of double-stranded RNA fungal viruses

Mata C.P., Luque D., Gómez-Blanco J., Rodríguez J.M., González J.M., Suzuki N., Ghabrial S.A., Carrascosa J.L., Trus B.L., Castón J.R. 2017. Acquisition of functions on the outer capsid surface during evolution of double-stranded RNA fungal viruses. PLoS Pathog. 13(12):e1006755.

PUBMED DOI

Structural Insights into the Assembly and Regulation of Distinct Viral Capsid Complexes

Sarker S., C. Terrón M., Khandokar Y., Aragão D., Hardy J.M., Radjainia M., Jiménez-Zaragoza M., de Pablo P.J., Coulibaly F., Luque D., Raidal D.R., Forwood J.K. 2016. Structural Insights into the Assembly and Regulation of Distinct Viral Capsid Complexes. Nat. Commun. 7:13014. IF: 12.124; D1.

PUBMED DOI

Content with Investigacion Inmunología Celular .

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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.

Content with Investigacion Inmunología Celular .