Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
Do you want to contribute to top quality medical research? Division The Integrative Physiology research group at the Department of Molecular Medicine and Surgery at Karolinska Institutet is seeking
-
. Neuronal activity dependent molecular signaling processes are central for synaptic plasticity. These molecular events form the mechanistic basis of complex neural computation, learning and memory
-
motivated postdoctoral researcher to study the effect of sex hormones on the aging brain. The research focuses on understanding how altered sex hormone signaling during different life stages modulates mental
-
cells, aiming to enhance treatment efficacy and contribute with new discoveries in cancer biology. Our models cover metabolism, signaling, and gene regulation, and we train them on extensive high
-
cells. The models encompass metabolism, signaling, and gene regulation and are constrained to align with physical interactions between biomolecules. We train the models on high-throughput datasets
-
metabolism, signaling, and gene regulation and are constrained to align with physical interactions between biomolecules. We train the models on high-throughput datasets, including metabolomics, proteomics, and
-
-of-the-art proteomic analyses will be applied to uncover signalling pathways in targeted immune cell populations that are known to regulate psoriasis disease activity. Entry requirements Scholarships
-
formulating management plans and predicting prognoses. Research also indicates that these associations tend to remain within sibling- and twin pairs. This might indicate that treatment of hierarchical factors
-
Science and Engineering, or a closely related field such as signal processing, machine learning, statistics, or bioinformatics. Expertise in image analysis and deep learning models, with a focus on object
-
. The group is building a new interdisciplinary research program as there is an immense potential for new fundamental insights to be discovered. Neuronal activity dependent molecular signaling processes