Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
of extracellular vesicles and therapeutic agents” The position is part of the EU-funded Marie Skłodowska-Curie Actions Doctoral Network MenoBrain “Brain Health in Menopausal Women” with full-time employment for a
-
of Biotechnology at the University of Helsinki. We study structural mechanisms and biological functions of mechanosensitive membrane microdomains. By using a combination of structural biology, biochemistry, in vitro
-
structure and their possible extended formation from the low solar corona to inter-planetary space. Most existing global MHD models are largely limited by their lower boundary at 0.1 astronomical unit and
-
or non-parametric functional distribution for species responses to environmental drivers as well as latent factors to describe spatially and temporally structured stochastic processes. JSDMs are routinely
-
large proteomics dataset, so we are working with several novel host cell targets. The work could include detailed virological, cell biological, or biochemical/structural characterization of the selected
-
detailed virological, cell biological, or biochemical/structural characterization of the selected protein(s). We are supported by top-level local core facilities in proteomics, as well as light and electron
-
benefits to its employees, including: Occupational health care. Flexible working hours suiting various life situations. Access to high quality sports facilities. Opportunities for professional development
-
in test reactions relevant to the sustainable use of natural resources. The group aims for fundamental understanding of structure-activity relationships and strives towards more openness in science
-
lineage cells and CNS health in aging and repair, using advanced in vivo and in vitro models combined with cutting-edge molecular, imaging, and transcriptomic approaches. About the Role The doctoral
-
the function of oligodendrocyte lineage cells and CNS health in aging and repair, using advanced in vivo and in vitro models combined with cutting-edge molecular, imaging, and transcriptomic approaches. About