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Investigation
Bacterial Genetics
Research projects
Content with Investigacion .
Financiación activa:
1. STOPINFECTIONS: Desarrollo de la primera vacuna válida internacional contra la neumonía resistente a antibióticos. Convocatoria Retos de Colaboración 2019. Proyecto RTC 2019-007058-1 financiado por MCIN/AEI/10.13039/501100011033.
2. AMREADY: Desarrollo y fabricación de vacunas como soluciones y preparación ante la crisis sanitaria mundial por la resistencia a antibióticos. Convocatoria Proyectos I+D+i en líneas estratégicas, en colaboración público-privada 2021. Número de expediente PLEC2021-008078. Proyecto PLEC2021-008078 financiado por MCIN/AEI/10.13039/501100011033 y por la Unión Europea NextGenerationEU/PRTR.
3. TRANSVAC DS: Design Study for a European Vaccine R&D Infrastructure. (Unión Europea; Horizonte 2020) Work Package Leader: Michael McConnell. 2020-2022. 1.900.000 €.
4. Development of a multiepitope vaccine for the prevention of COVID-19. (CaixaImpulse Program) CF01-0002. IP: Michael McConnell. 2020-2020. 300.000 €.
5. NANOVAX: Desarrollo de nanopartículas funcionalizadas para mejorar la respuesta a vacunas frente a enfermedades infecciosas. (DTS19CIII/0007) Instituto de Salud Carlos III. IP: Michael McConnell. 2020-2021. 86.000 €.
6. Desarrollo preclínico de vacunas basadas en ADN plasmídico para la prevención de infecciones por Klebsiella pneumoniae y Acinetobacter baumannii multirresistentes. Instituto de Salud Carlos III (FIS). Co-IP: Michael McConnell. 2019-2021. 97.700 €.
7. Coordinación de actividades de investigación en el CNM para realizar una respuesta integradora frente a la pandemia por SARS-COV-2 en España. Work Package Leader: Michael McConnell. 2020-2021. 325.909 €.
8. Investigación para el desarrollo de vectores de expresión de antígenos de Actinobacillus pleuropneumonia. IP: Michael McConnell. 2019-2022. 11.000 €.
9. Investigación de anticuerpos frente a Acinetobacter baumannii. Co-IP Michael McConnell. 2018-2021. 40.400 €.
10. KapaVax: Development of a trivalent vaccine for the prevention of infection caused by Acinetobacter baumannii, Pseudomonas aeruginosa and Klebsiella pneumoniae. CARB-X. IP (ISCIII): Michael McConnell. 2019-2021. 89.615 €.
11. Estudio de la cinética y reactividad de los anticuerpos neutralizantes en pacientes recuperados de COVID-19. Fundación Mutua Madrileña. Work Package Leader: Michael McConnell. 2020-2021. 80.000 €.
12. STOP-Coronavirus: factores clínicos, inmunológicos, genómicos, virológicos y bioéticos de COVID-19. (ISCIII: COV20-00181). 2020-2021. 1.200.000€.
13. Desarrollo de herramientas computacionales basadas en "big data" genómico para el diagnóstico de precisión de sepsis bacteriana. (MPY 509/19). IP: Javier Martín Galiano. 2020-2022- 74,400 €.
Publications
High-Resolution Melting Assay to Detect the Mutations That Cause the Y132F and G458S Substitutions at the ERG11 Gene Involved in Azole Resistance in Candida parapsilosis
Nuria Trevijano-Contador, Elena López-Peralta, Jorge López-López, Alejandra Roldán, Cristina de Armentia, Óscar Zaragoza. Mycoses 2024 Nov;67(11):e13811
PUBMED DOIBroad Protection against Invasive Fungal Disease from a Nanobody Targeting the Active Site of Fungal β-1,3-Glucanosyltransferases
Redrado-Hernández S, Macías-León J, Castro-López J, Belén Sanz A, Dolader E, Arias M, González-Ramírez AM, Sánchez-Navarro D, Petryk Y, Farkaš V, Vincke C, Muyldermans S, García-Barbazán I, Del Agua C, Zaragoza O, Arroyo J, Pardo J, Gálvez EM, Hurtado-Guerrero R. Angew Chem Int Ed Engl. 2024 Aug 19;63(34):e202405823.
PUBMED DOIDiagnósitico microbiológico y control de la legionelosis
Pelaz Antolín, C., et al., En Procedimientos en Microbiología Clínica, E.C.y.R. Cantón, Editor. 2005, SEIMC. p. 1-72.
PUBMEDContent with Investigacion .
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Antonio Javier Martín Galiano
Investigador Miguel Servet II
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Mireia López Siles
Investigadora Posdoctoral
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Andrés Corral Lugo
Investigador Posdoctoral
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Ana Tajuelo Moreno-Palancas
Investigadora predoctoral
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Marta Vicente Pazos
Investigador predoctoral
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Astrid Pérez Gomez
Investigador posdoctoral
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Mar Cordero Alba
Investigador posdoctoral
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Sonia Prieto Martín Gil
Investigador predoctoral
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Beatriz Cano Castaño
Investigador predoctoral
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Michael McConnell
Científico Titular
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Miriam García López
Contratada predoctoral pFIS
List of staff
Additional Information
Streptococcus pneumoniae is a human pathogen that, despite the development of vaccines, continues to be an important cause of mortality and morbidity. We investigate the mechanisms of antibiotic resistance in this bacterium. On the one hand by identifying new therapeutic targets and on the other hand by investigating the molecular basis of the action of antibiotics already used in clinical practice (the fluoroquinolones levofloxacin and moxifloxacin) or not yet used (seconeolitsine). For this purpose, we used a multidisciplinary analysis involving genomics, transcriptomics and proteomics to understand the organization of the S. pneumoniae chromosome and the identification of the factors that stabilize this organization, including ncRNAs. Changes in the level of global supercoiling, either by inhibition of gyrase (decrease) or by inhibition of topoisomerase I (increase) alter the transcriptome. The modulated genes are located in domains, whose genes show specific functional characteristics. The aim is to identify new factors essential for S. pneumoniae physiology and to characterize transcriptional regulation in response to topological stress. In addition, RNA interference technology and CRISPR systems will be used as novel antibacterials. These studies will establish the bases for translational research aimed at the development of new therapeutic targets for the treatment of pneumococcal diseases.
Streptococcus pneumoniae is a human pathogen that, despite the development of vaccines, continues to be an important cause of mortality and morbidity. We investigate the mechanisms of antibiotic resistance in this bacterium. On the one hand by identifying new therapeutic targets and on the other hand by investigating the molecular basis of the action of antibiotics already used in clinical practice (the fluoroquinolones levofloxacin and moxifloxacin) or not yet used (seconeolitsine). For this purpose, we used a multidisciplinary analysis involving genomics, transcriptomics and proteomics to understand the organization of the S. pneumoniae chromosome and the identification of the factors that stabilize this organization, including ncRNAs. Changes in the level of global supercoiling, either by inhibition of gyrase (decrease) or by inhibition of topoisomerase I (increase) alter the transcriptome. The modulated genes are located in domains, whose genes show specific functional characteristics. The aim is to identify new factors essential for S. pneumoniae physiology and to characterize transcriptional regulation in response to topological stress. In addition, RNA interference technology and CRISPR systems will be used as novel antibacterials. These studies will establish the bases for translational research aimed at the development of new therapeutic targets for the treatment of pneumococcal diseases.