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Oferta de Trabajo  Código: 37881  

Puesto: Effect of Hyperglycemia in Stroke

Empresa: Achucarro Basque Center for Neuroscience Nº de Plazas: 1
Referencia: Contrato Predoctoral Publicada el 27/10/2020 Publicada hasta el 15/11/2020
Tipo de Contrato: Contrato temporal Dedicación: Jornada completa  
Localidad: Leioa Provincia: Bizkaia Disponibilidad para viajar: Sin especificar
Fecha de Incorporación: Inmediata  

Nivel Académico
Master  

Titulación Académica
Biología (Titulación Universitaria)
Bioquímica (Titulación Universitaria)
Biotecnología (Titulación Universitaria)
Ciencias Biomédicas (Titulación Universitaria)

Áreas tecnológicas
A- Biociencias
B-056 Neurociencias

Idiomas
Idioma: Inglés Nivel Lectura: Alto Nivel Escrito: Alto Nivel Conversación: Alto

Experiencia
Graduate and master degree in Biomedical or Life sciences and related areas.
An academic record above 7.5 (scale 0-10) is desirable.
Solid communication skills in English.

We highly value motivation, creativity, imagination and abilities for team work and cooperation. The Achucarro center offers good conditions and an excellent research environment and facilities. For more information see: https://www.achucarro.org/home
Interested applicants should submit a motivation letter, a CV, the academic grades from a current/previous supervisors to José Luis Zugaza (joseluis.zugaza@ehu.es) and/or Abraham Martin (abraham.martin@achucarro.org) BEFORE 15th NOVEMBER 2020, indicating "Hyperglycemia_Stroke_PhD" in the email subject.

Otros

A pre-doctoral position in molecular neurosciences is offered to work on a collaborative and interdisciplinary project between the GTPases and Neurosignaling Lab led by Dr. José Luis Zugaza and the Neuroimaging and Biomarkers of inflammation led by Dr. Abraham Martín at Achucarro Basque Center for Neuroscience (https://www.achucarro.org/research-groups). The candidate will participate in a project aimed to investigate the detrimental effect of hyperglycemia in preclinical stroke and its therapeutic potential on HIF-1 signaling pathways. The project will use tools to mimic stroke in rats and a battery of in vivo (molecular imaging techniques; positron emission tomography (PET), Magnetic resonance imaging (MRI) together with ex vivo molecular biology, biochemistry and immunohistochemical techniques to decipher the effect of hyperglycemia after stroke at different molecular, cellular and tissue levels.