PostDoc (gn*) Physiology and Biophysics of Ion Channels in Human Sperm Fixed term of 3 years | Full-time with 100% | Salary according to salary group 13 TV-L | Centre of Reproductive Medicine and Andrology | Job ID: 11720 We are UKM. We have a clear social mission and, with our focus on healthcare, research, and teaching, we bear a unique responsibility - ideally with you on board! The position is located in the research group of Timo Strünker (Molecular Reproductive Physiology) and embedded in the DGF-funded Collaborative Research Centre 1748 ‘Principles of Reproduction’. The CRC 1748 involves scientists of the University of Münster, the University Hospital, and the Max Planck Institute Münster as well as scientists of the RWTH Aachen. Our central objective is to elucidate the genetic, 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. To this end, we combine interdisciplinary research in molecular, structural and cell biology as well as in physiology, biophysics, epi/genetics, (bio)informatics, and multimodal data analysis. In this project, we will elucidate the molecular mechanisms that enable sperm to sense their chemical and physical environment, with a particular focus on ion channels and signalling molecules, proteins, and pathways. Analyse the biophysical properties of sperm-specific ion channels Dissect the interplay of ion channels in human sperm Perform patch-clamp recordings from somatic cells and human sperm cells in combination with the use of caged compounds PhD in biology, biochemistry, pharmacy, physics, biomedicine, or other life sciences Strong interest in physiology and biophysics of ion channels Experience in studying ion channels using patch-clamp recordings High motivation for scientific work and willingness to contribute to an interdisciplinary team Commitment to research in a translational setting Good English communication skills (spoken and written); German skills are advantageous Knowledge of the use of photochemical tools, e.g., caged compounds (desired) Salary according to tariff agreement, extra annual payment, and company pension plan (VBL) 30 days of vacation per year, plus two additional days off on Christmas Eve and New Year's Eve State-of-the-art techniques, tools, and experimental models for research Competitive, interdisciplinary, creative and international research environment with a track record of intense mutual collaboration A respectful and appreciative work environment within a diverse team Support and advisory services for health and work-life balance Additional benefits such as sports programs, job ticket, company events, cafeteria, and emergency childcare BENEFITS Exciting Projects Professional Development and Training Interdisciplinary Collaboration Part of Research Innovation Additional Benefits