Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- France
- Germany
- Sweden
- Spain
- Netherlands
- Poland
- Portugal
- Denmark
- Belgium
- Czech
- Switzerland
- Finland
- Norway
- Canada
- Singapore
- Brazil
- Japan
- Austria
- Ireland
- Greece
- Hong Kong
- Italy
- Morocco
- United Arab Emirates
- China
- Romania
- Andorra
- Australia
- Bulgaria
- Croatia
- Estonia
- Iceland
- Israel
- Luxembourg
- Malaysia
- Saudi Arabia
- Taiwan
- 29 more »
- « less
-
Program
-
Field
- Biology
- Medical Sciences
- Engineering
- Computer Science
- Science
- Economics
- Mathematics
- Chemistry
- Business
- Materials Science
- Philosophy
- Environment
- Physics
- Psychology
- Education
- Humanities
- Arts and Literature
- Electrical Engineering
- Linguistics
- Law
- Social Sciences
- Sports and Recreation
- Earth Sciences
- 13 more »
- « less
-
, and optimize novel micro-bioreactors and cell culture protocols. This role will focus on creating sophisticated "digital twins" of our tissue engineering systems by integrating COMSOL multiphysics
-
, genetic, biochemical, biophysical, cellular anatomical, and behavioral approaches to elucidate mechanisms and/or therapeutic strategies relevant to understanding and treating pediatric neurological disease
-
, cardiovascular science, haematology, or a closely related field, with hands-on experience of cellular and/or molecular approaches for studying immune mechanisms. You will demonstrate the ability to design and
-
damage. Here, we will investigate the cellular and molecular mechanisms underlying regeneration in the CNS: neurogenesis, gliogenesis, cell growth, generation of new connectivity patterns and synapses, and
-
breast cancer patients, explore the activation mechanism of antiviral defense pathways in cell cultures and perform bioinformatics analysis of data. The work will be performed in a modern molecular biology
-
generation of stem-cell derived models, these platforms open new avenues to systematically explore tissue self-organization and disease mechanisms. The group of Prof. Bausch is establishing an automated cell
-
particular focus on cellular and molecular mechanisms, and developmental biology but all areas of cell biology will be considered. The successful candidates are expected to maintain independent and dynamic
-
, cell culture, structural modelling and optogenetics Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR8197-VALHER-211/Candidater.aspx Requirements Research FieldNeurosciencesEducation
-
. The mission of the group is to understand fundamental mechanisms regulating short- and long-term metabolic adaptation to genetic and chemical perturbations to find new and unconventional therapeutic strategies
-
volumes in frozen cell sections, providing unprecedented maps of the distributions of small molecules within the cell. Determining the spatial distribution of small molecules within cells is crucial