Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- Germany
- France
- Spain
- Portugal
- Sweden
- Poland
- Netherlands
- Belgium
- Denmark
- Finland
- Switzerland
- Czech
- Australia
- Austria
- United Arab Emirates
- Canada
- Hong Kong
- Luxembourg
- Greece
- Ireland
- Japan
- Singapore
- Norway
- Brazil
- Croatia
- Italy
- Mexico
- Morocco
- Estonia
- Iceland
- Latvia
- New Zealand
- Slovakia
- 25 more »
- « less
-
Program
-
Field
-
and fluorescence microscopy. The host team, “New Synthetic Methods for the Chemistry–Biology Interface,” is part of the CNRS UMR8601 unit, “Laboratory of Pharmacological and Toxicological Chemistry and
-
the interface between immunology and lymphatic vascular biology, employing cutting-edge microscopy and transcriptomic approaches to study lymphatic morphology and leukocyte migration. We are currently recruiting
-
, protein biochemistry, electron and fluorescence microscopy and CRISPR/Cas9 genome editing to study the role of the early autophagy machinery in targeting and degrading protein aggregates and organelles
-
Australia) and forests in North America or Europe. They will have the opportunity to contribute to anatomical (e.g. electron microscopy), physiological (e.g., electrophysiology), and/or behavioural
-
facilities such as MAX IV (Lund), SciLifeLab (Stockholm), and CFIM (Copenhagen), where cryo-electron microscopy (cryo-EM) and tomography (cryo-ET) are performed. The group values a collegial and supportive
-
, microbial genetics and fluorescence microscopy to study the interaction of LysM domains with synthetic peptidoglycan fragments and characterize protein partners required for subcellular localization of LysM
-
genetics, evolutionary analysis, mammalian cell culture, and live-cell imaging. Through collaborations, we use cryo-electron microscopy and cryo-electron tomography for structural studies. For more
-
the tissue response around the materials will be followed by multimodal approaches including (among others) time-lapsed in vivo imaging, multiphoton intravital microscopy, spatial transcriptomics and
-
in advanced bioimaging (including super-resolution, confocal and electron microscopy), genomics, proteomics, metabolomics, high-performance computing and field research. We promote research
-
the detachment process. To achieve this goal, the project will use a dedicated in-situ scratch tester with in-situ scanning electron microscopy observation capabilities, which so far was used for indentation