The course will introduce students to a selected set of laboratory techniques that are foundational to modern biological research.

Experimental methods for the purification, analysis and characterization of proteins and nucleic acids. Work on small research projects.

This laboratory course is compulsory for physics students with the elective subject biophysics. The topic of the work is determined individually, and will be in the context with ongoing research projects. Possible topics are NMR investigations with proteins, NMR structure determination of proteins in solution, development of novel NMR experiments, studies of protein folding.

This lecture course targets physics students and students of interdisciplinary sciences (major physics) for their education in biophysics. In this course the basics of molecular biology are presented bearing in mind the special interests of the physics students.

The cell interior is densely packed with macromolecules that self-organize through liquid-liquid phase separation and polymerization. In this interdisciplinary block course, we look at different experimental and theoretical approaches that investigate the fundamental principles of these interactions, how they are regulated and how they influence cell functions and properties of the cell interior.

Concepts and molecular mechanisms underlying the biochemistry of the cell, providing advanced insights into structure, function and regulation of individual cell components. Particular emphasis will be put on the spatial and temporal integration of different molecules and signaling pathways into global cellular processes such as intracellular transport, cell division & growth, and cell migration.

This course will focus on molecular mechanisms and concepts underlying cellular biochemistry, providing advanced insights into the structural and functional details of individual cell components, and the complex regulation of their interactions. Particular emphasis will be on the spatial and temporal integration of different molecules and signaling pathways into global cellular processes.

This Master level course delves into the emerging field of biomolecular condensates - membrane-less organelles in cells. Using interdisciplinary concepts from biology, chemistry, biophysics, and soft matter, we will explore the biological properties of these condensates, their functions in health and disease, and their potentiol as new biomimetic materials for various applications.

Laboratory course with advanced experiments in the plant sciences, biochemistry, and structural biology.

This 1st year Laboratory course introduces the student to the entire range of classical and modern molecular biosciences. During this course (Praktikum GL BioI) the students will do three praktikum days in:- Biochemistry- Cell Biology I- Microbiology- Plant Anantomy & Ecology(total of 12 experiments)Each experiment takes one full day.

Amino acids; structure of proteins; folding; dynamics and evolution; protein purification; sugars and polysaccharides; lipids and membranes. Enzymatic catalysis. Metabolism; Gene expression and propagation of genetic information; structure of DNA; ; transcription; protein biosynthesis; DNA replication. Gene technology; production of recombinant proteins

The lecture provides an introduction to the function and regulations of cells.

This Concept Course explores the molecular and structural mechanisms underlying key processes in gene expression and protein biogenesis. The course will present advanced mechanistic aspects of the organization and regulation of chromatin, transcription, RNA maturation, translation, and the pathways of protein folding, modification, trageting to membranes, and quality control.

The course consists of a series of research seminars on Structural Biology and Biophysics, given by both scientists of the National Center of Competence in Research (NCCR) in Structural Biology and external speakers.

This course teaches the basic principles of evolution, cell biology, molecular biology, genetics and developmental biology using the example of humans.

This course on advanced topics in molecular biology and biochemistry covers the structure and function of large cellular protein assemblies. The lecturers will cover topics including membrane proteins, protein glycosylation, horizonal gene transfer, microbial cytomotive filaments, and microbial contractile injection systems.