Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- Germany
- Sweden
- France
- Spain
- Denmark
- Belgium
- Austria
- Poland
- Netherlands
- Switzerland
- Czech
- Morocco
- Portugal
- Finland
- Norway
- Australia
- Canada
- Ireland
- Hong Kong
- Singapore
- United Arab Emirates
- China
- Luxembourg
- Taiwan
- Japan
- Croatia
- Greece
- Brazil
- Bulgaria
- Israel
- Italy
- Estonia
- Lithuania
- Malaysia
- Mexico
- Romania
- Turkey
- 29 more »
- « less
-
Program
-
Field
-
this project will be to elucidate how VEL polymerization properties influence epigenetic silencing dynamics in the regulation of cold-induced flowering (vernalization). The research will combine
-
of field data, >60,000 pedigree individuals, and well-established laboratory populations from multiple geographic origins, alongside cutting-edge molecular facilities on the Viikki campus. The postdoc will
-
to perform their tasks. iHuman Institute About iHuman The iHuman Institute at ShanghaiTech University is focused on integrating molecular, cellular, and whole organ/body data to build a dynamic atomic
-
molecular approaches to address fundamental questions in synaptic physiology and pathophysiology. RESPONSIBILITIES Conduct and lead research projects in synaptic physiology and neuroscience, with
-
apply ultra-fast machine-learning interatomic potentials (UFPs, Xie et al., npj Comput. Mater., 2023, 10.1038/s41524-023-01092-7 ) for long, multi-million-atom molecular dynamics (MD) simulations
-
barrier in the planned KBS-3 concept for final disposal of spent nuclear fuel. The PhD student will develop, apply, and combine theoretical molecular dynamics (MD) simulations with experimental techniques
-
, motivated, and well‑organized Research Technician with expertise in analytical chemistry to join our dynamic and collaborative team. Our mission is to better understand the molecular mechanisms of genetic
-
and molecular mechanisms underlying phenotypic variability in quiescent cell populations and their impact on adaptation, antifungal resistance, and population dynamics. The successful candidate will
-
molecular dynamics (MD) simulations, for example using GROMACS or transition path sampling (TPS) to analyze structural changes over time. Experience in contributing to collaborative research is a plus
-
atomistic simulations to overcome the limitations of traditional molecular dynamics approaches, which struggle to capture the experimentally relevant size (20–100 nm) and molecular complexity of LNPs. ML