The lecture teaches central reactions and metabolic pathways of biochemistry as well as molecular biology with emphasis on chemical and partly biophysical aspects.

The course covers biophysical methods for characterising conformational transitions and reaction mechanisms of proteins and other biological macromolecules. It is especially suited for students in the Biology MSc Majors “Structural Biology & Biophysics”, “Biochemistry”and “Chemical Biology”, as well as for MSc students of “Chemistry and Interdisciplinary Natural Sciences”.

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.

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.

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.

This course covers aspects of RNA biology related to gene expression at the posttranscriptional level. These include RNA transcription, processing, alternative splicing, editing, export and translation.

Introduction to the diversity of current RNA-research at all levels from structural biology to systems biology using mainly model systems like S. cerevisiae (yeast), mammalian cells.

Introduction to the diversity of current RNA-research at all levels from structural biology to systems biology using mainly model systems like S. cerevisiae (yeast), mammalian cells.

During this Masters level course students synthesize and defend their critical scientific review of selected manuscipts in the broad field of basic experimental molecular biology, including but not limited to biochemistry, structural biology and biophysics.