Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- Germany
- Denmark
- Morocco
- Sweden
- France
- Belgium
- Finland
- Hong Kong
- Australia
- Ireland
- Netherlands
- Norway
- Poland
- Spain
- Canada
- Switzerland
- Brazil
- China
- Luxembourg
- Mexico
- Brasil
- Czech
- Argentina
- Austria
- Italy
- Portugal
- Qatar
- Sao Tome and Principe
- Slovakia
- Taiwan
- United Arab Emirates
- 23 more »
- « less
-
Field
-
: 94057 Requisition Number: 2025 - 259 Business Unit: College of Medicine Department: Biochem and Molecular Biology 50000510 Reg-Temp: Full-Time Regular Position Summary: The Department of Biochemistry and
-
the molecular mechanisms driving therapy resistance in human cancers. The research project focuses on understanding the molecular mechanisms by which MAPK4 and/or COP1 regulate cancer progression and therapy
-
modelling (molecular dynamics, finite element modelling of the battery…). The post-doc candidate will have the opportunity to collaborate with all the members of the LabCom. Where to apply Website https
-
and focuses on molecular immunology and inflammatory mechanisms. Cutting-edge research models (eg. primary cell/organoid cultures, mouse models and human clinical samples) and technologies (e.g. scRNA
-
CENTD, a multidisciplinary center studying molecular targets of inflammatory diseases, is offering a postdoctoral position for 12 months. The project aims to identify and validate new pharmacological
-
The International Institute of Molecular Mechanisms and Machines Polish Academy of Sciences | Poland | 7 days ago
28 Aug 2025 Job Information Organisation/Company The International Institute of Molecular Mechanisms and Machines Polish Academy of Sciences Research Field Biological sciences » Biology Researcher
-
and exploit the interrelated processes of viral glycosylation and viral dynamics. Molecular simulations will enable the identification of cryptic pockets in viral proteins that form during the entry
-
strengths in laboratory-based enquiry using molecular genetics, metagenomics, biochemistry, cell biology, bioinformatics and structural biology, with rich clinical resources in microbiology, virology
-
conjugates into fluorescent nanostructures, which growth results from a combination of dynamic covalent and supramolecular processes, moving from solution studies to model lipid membranes, then live cells
-
mechanisms, diagnosis and treatment of human infections. Our research bridges our strengths in laboratory-based enquiry using molecular genetics, metagenomics, biochemistry, cell biology, bioinformatics and