Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
interdisciplinary research in molecular, structural, and cell biology as well as in physiology, biophysics, epi /genetics, (bio)informatics, and multimodal data analysis. The bioinformatics service unit offers
-
leading therapeutic target. The project emphasizes cryo-EM structural studies to characterize LRRK2 signaling in disease states and identify novel therapeutic strategies for PD. Ideal Candidate We seek a
-
Job Description Responsible for overseeing and managing the planning, design, and execution of construction projects from inception to completion. This role ensures that all projects are completed
-
The Max Planck Institute of Biophysics is a leading international research center that develops biophysical, biochemical and computational methods to investigate the structure, dynamics and function
-
. To this end, we combine interdisciplinary research in molecular, structural, and cell biology as well as in physiology, biophysics, epi /genetics, (bio)informatics, and multimodal data analysis. Main goal
-
, production and function of sperm, fertilisation, as well as early embryonic development – in both health and disease. To this end, we combine interdisciplinary research in molecular, structural, and cell
-
for Medical Research have developed a novel coating method that mimics nanometer-scaled moth eye structure for anti-reflection applications. To date, conventional mass-production of such structures was complex
-
of the testis, production and function of sperm, fertilisation, as well as early embryonic development – in both health and disease. To this end, we combine interdisciplinary research in molecular, structural
-
effectively in an interdisciplinary and international team Independent, reliable, and structured way of working with a strong sense for quality control Flexibility, communication skills, strong motivation, and
-
. The central goal of this project is to explore the fundamentals of the electronic structure of nitride systems — including their band structure, Fermi surface, electron–electron and electron–phonon interactions