Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
. The inherent substrate overlap between amino acid transporters makes it difficult to find selective inhibitors that can be used to investigate the role of amino acid transporters and to develop inhibitors as
-
-Holstein (UKSH), is seeking a PhD student with a strong background in statistics, machine learning (ML)/artificial intelligence (AI), or bioinformatics. Our group develops novel computational and statistical
-
using remote sensing and bioacoustics to track forest conditions, to examining soil and microbial processes that support ecosystem resilience, to developing genetic strategies that improve tree
-
will be embedded in the Computational Mechanics (Legato ) group and enrolled in the Doctoral Programme in Complex Systems Science. Depending on background and interests, the PhD may include: Development
-
cellular mechanisms governing the formation and function of the testis, production and function of sperm, fertilisation, as well as early embryonic development – in both health and disease. To this end, we
-
, molecular, and cellular mechanisms governing the formation and function of the testis, production and function of sperm, fertilisation, as well as early embryonic development – in both health and disease
-
archival). Your primary tasks will be: Development of new research projects in collaboration with colleagues at the DTU Aqua sections and/or international partners. Publication of papers in peer reviewed
-
, molecular, and cellular mechanisms governing the formation and function of the testis, production and function of sperm, fertilisation, as well as early embryonic development – in both health and disease
-
Declaration of interest regarding PhD project within the field of biomarker and therapeutic targe...
in tissue damage and disease development. The research is characterized by close integration of basic and translational approaches, as well as well-established collaboration with clinical environments
-
Andrology (CeRA). Here, we investigate the cellular and molecular mechanisms underlying vascular and lymphatic control of gonad development, using advanced imaging, zebrafish models, and organoid systems. Our