Sort by
Refine Your Search
-
Listed
-
Employer
- Technical University of Denmark
- Nature Careers
- Aarhus University
- University of Southern Denmark
- Aalborg University
- University of Copenhagen
- Geological Survey of Denmark and Greenland (GEUS)
- ;
- ; University of Copenhagen
- Copenhagen Business School
- Roskilde University
- ; Technical University of Denmark
- COPENHAGEN BUSINESS SCHOOL
- Copenhagen Business School , CBS
- Danmarks Tekniske Universitet
- Section for Computational and RNA Biology, Department of Biology, University of Copenhagen
- 6 more »
- « less
-
Field
-
, 2012 Apr 17;109(16): E934-43; Nature Genetics, 2012 Jan; 18;44(1):94-100; Nature, 2011 Dec 14;480 (7378):490-5. You will Lead research on gene regulatory mechanisms Employ state-of-the-art methods in
-
these periods by applying the same methods to 20th-century sedimentary archives, which overlap with existing instrumental climate time series. The position is a part of the EeMi project funded by Geocenter
-
Gabe . About the position In connection with the Carlsberg Foundation - Semper Ardens: Accelerate grant “Classifying finite and infinite C*-dynamics” held by Jamie Gabe, we are opening a 2-year postdoc
-
associations involve non-coding variants that lie within gene regulatory elements — enhancers or promoters. However, a lack of precise tools for the accurate assessment of regulatory activities, especially
-
including genetic engineering in particular natural transformation (using non-GMO transformation methods). In addition, novel research on high value crops containing beneficial compounds, i.e. medicinal
-
September 1st, 2025, or as soon as possible. The positions are for two years with potential for extension. We seek outstanding candidates to develop generative-AI-based statistical methods for blood-based
-
are defined: 1) Conceptual design principles and methods for resilient manufacturing systems. This topic will build upon existing theory on modular and reconfigurable manufacturing systems and develop methods
-
guest metal ions and structural defects in metal oxides. The project focuses on understanding and utilizing redox properties of solid materials and the interactions between structural defects, metal
-
individual processes to entire manufacturing systems. The positions will all focus on factory and line level, where three research topics are defined: 1) Conceptual design principles and methods for resilient
-
, stimulation and transduction of T cells, and standard molecular biology methods, including cloning. Experience with flow cytometry and animal work is essential. Hands-on experience using cancer models in mice