Award for discovery phase-separated macromolecule condensates
Researchers uncover a mechanism that, similar to wound-healing, converts tissue during a spreading event into a fluid-like state.
Analysis of almost 500 fish genomes to answer fundamental questions
The happiness neurotransmitter serotonin can act as a growth factor for the stem cells in the fetal human brain that determine brain size.
Dresden researchers identify a growth-limiting role for lipids during eye development.
Opening of the DRESDEN-concept science exhibition in front of the Dresden Kulturpalast
Dresden researchers develop a new method and discover new features of primary cilia – little understood antenna-like structures protruding from cells.
Interview with Meritxell Huch in CARTHA
Team of researchers investigate influence of alcohol on roundworm larvae
MPI-CBG Alumnus strengthens Frankfurt Biodiversity Research
Dresden researchers demonstrate that the length of the neurogenic period is a key determinant for brain size
Future MPI-CBG research group leader Jonathan Rodenfels receives ERC Starting Grant
Novel mathematical framework to study compartmentalized biochemical systems
Counter-rotating flows drive cell movement during cell division
Guidelines on how to run imaging facilities during a pandemic
Volkswagen Foundation grants research project on 3D tissue shapes
First six reference-quality bat genomes released and analysed.
Positive feedback loop creates protein patterns on cellular membranes
Exchange between cells increases the precision of signal estimation
A wonderful colleague, friend and brilliant scientist is dearly missed.
Dresden and Japanese researchers show that a human-specific brain size gene causes a larger neocortex in the common marmoset, a non-human primate.
Trained artificial networks improve image quality in fluorescence microscopy
For the first time, Dresden researchers prove the existence of DNA loops in a living context.
Group of Max Planck Fellow Stefan Diez detects biophysical forces of molecular motors in 3D
MPI-CBG part of the German COVID-19 OMICS Initiative (DeCOI)
Baker's yeast cells provide information on how organisms could cope with global warming and other altered environmental factors
Molecular biologists reverse-engineer a complex cellular structure that is associated with neurodegenerative diseases such as ALS
New chemical tools can control the concentration of lipids in living cells
Support for exceptional scientists exploring new and unconventional directions in science
Artificial Intelligence fully automates scanning probe microscopy
