We protect your health through science
Investigation
Viral Pathogenesis and Immunity
Publications
The Complexity of Antibody Responses Elicited against the Respiratory Syncytial Virus Glycoproteins in Hospitalized Children Younger than 2 Years
2. Trento A, Rodriguez-Fernandez R, Gonzalez-Sanchez MI, Gonzalez-Martinez F, Mas V, Vazquez M, et al. The Complexity of Antibody Responses Elicited against the Respiratory Syncytial Virus Glycoproteins in Hospitalized Children Younger than 2 Years. Front Microbiol. 2017;8:2301.
PUBMED DOIPotent single-domain antibodies that arrest respiratory syncytial virus fusion protein in its prefusion state.
3. Rossey I, Gilman MS, Kabeche SC, Sedeyn K, Wrapp D, Kanekiyo M, et al. Potent single-domain antibodies that arrest respiratory syncytial virus fusion protein in its prefusion state. Nat Commun. 2017;8:14158.
PUBMED DOIRapid 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 DOICharacterization 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 DOIPolyclonal 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.
PUBMED DOIBiophysical 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 DOIAdditional Information
The activity of this unit focuses on the development and clinical validation of point-of-care diagnostic methodology against liver viruses based on an emerging field, nanotechnology, a line of research that is developed in collaboration with BioAssays SL. Likewise, this unit focuses on delving into the immuno-virological mechanisms underlying viral infections and coinfections with other microorganisms and their influence on the host through a comprehensive approach to laboratory techniques.
One of the main lines of research involves the study of the coinfection of viral hepatitis with the Human Immunodeficiency Virus (HIV), evaluating the impact of coinfection and elimination of hepatitis C on the HIV reservoir, as well as its impact on virus-induced senescence, among others through the use of “omic” technologies.
Our group leads the Multidisciplinary HIV/Hepatitis Coinfection Group (COVIHEP), and maintains collaborations with national and international research groups of excellence, facilitating greater harmonization and quality in the biomedical research carried out. On the other hand, Dr. Briz maintains close collaboration with private companies, promoting intersectoral alliances that represent a competitive advantage.
The activity of this unit focuses on the development and clinical validation of point-of-care diagnostic methodology against liver viruses based on an emerging field, nanotechnology, a line of research that is developed in collaboration with BioAssays SL. Likewise, this unit focuses on delving into the immuno-virological mechanisms underlying viral infections and coinfections with other microorganisms and their influence on the host through a comprehensive approach to laboratory techniques.
One of the main lines of research involves the study of the coinfection of viral hepatitis with the Human Immunodeficiency Virus (HIV), evaluating the impact of coinfection and elimination of hepatitis C on the HIV reservoir, as well as its impact on virus-induced senescence, among others through the use of “omic” technologies.
Our group leads the Multidisciplinary HIV/Hepatitis Coinfection Group (COVIHEP), and maintains collaborations with national and international research groups of excellence, facilitating greater harmonization and quality in the biomedical research carried out. On the other hand, Dr. Briz maintains close collaboration with private companies, promoting intersectoral alliances that represent a competitive advantage.