Julius Brennecke
We investigate the ancient arms race between "selfish genes" and eukaryotes.
Boris Görke
We aim to unravel novel principles and pathways underlying signal-perception, -transduction and cellular regulation in the model organism Escherichia coli.
Javier Martinez
My Laboratory studies RNA processing in mammalian cells with links to metabolism, cellular homeostasis and disease.
Elisa Vilardo
In our lab we investigate the process of tRNA methylation from its multiple faces and aim to address the following fundamental questions
Sebastian Falk
Our group is interested in unraveling the molecular determinants that allow the establishment of a potent RNA interference response in which small RNAs are used to silence the expression of genes.
Clemens Plaschka
How do molecular machines prepare messenger RNA for gene expression?
Isabella Moll
Our research is centred on investigating how Escherichia coli can reprogram its translational landscape under challenging conditions.
Stefan Ameres
We investigate post-transcriptional gene regulation in flies and mammals by dissecting the molecular principles and timescales of RNA decay and their biological and biomedical implications.
Joanna Jachowicz
More than 50% of the mammalian genome is composed of transposons, repeats, and non-coding sequences that are highly expressed during early development.
Silvia Ramundo
Chloroplasts support life on our planet via photosynthesis, sequestering carbon dioxide and releasing oxygen while converting solar energy into chemical energy.
Matthias Schaefer
The Schaefer Lab aims at understanding why certain RNA degradation products are stable and long-lived.
Elif Karagöz
Karagöz lab is interested in understanding how cells sense and respond to perturbations to protein folding homeostasis, termed as proteotoxic stress.